WO2002013765A2 - Malaria immunogen and vaccine - Google Patents
Malaria immunogen and vaccine Download PDFInfo
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- WO2002013765A2 WO2002013765A2 PCT/US2001/025625 US0125625W WO0213765A2 WO 2002013765 A2 WO2002013765 A2 WO 2002013765A2 US 0125625 W US0125625 W US 0125625W WO 0213765 A2 WO0213765 A2 WO 0213765A2
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- C12N15/8241—Phenotypically and genetically modified plants via recombinant DNA technology
- C12N15/8242—Phenotypically and genetically modified plants via recombinant DNA technology with non-agronomic quality (output) traits, e.g. for industrial processing; Value added, non-agronomic traits
- C12N15/8257—Phenotypically and genetically modified plants via recombinant DNA technology with non-agronomic quality (output) traits, e.g. for industrial processing; Value added, non-agronomic traits for the production of primary gene products, e.g. pharmaceutical products, interferon
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K39/00—Medicinal preparations containing antigens or antibodies
- A61K2039/60—Medicinal preparations containing antigens or antibodies characteristics by the carrier linked to the antigen
- A61K2039/6031—Proteins
- A61K2039/6075—Viral proteins
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- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K2319/00—Fusion polypeptide
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
- Y02A50/00—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE in human health protection, e.g. against extreme weather
- Y02A50/30—Against vector-borne diseases, e.g. mosquito-borne, fly-borne, tick-borne or waterborne diseases whose impact is exacerbated by climate change
Definitions
- the present invention relates to the intersection of the fields of immunology and protein engineering, and particularly to an immunogen and vaccine useful in prevention of malaria infection by P. falciparum or P. vivax.
- P. falciparum Malaria is by far the world's most important tropical parasitic disease, killing more people than any other communicable disease, with the exception of tuberculosis .
- the causative agents in humans are four species of Plasmodium protozoa: P. falciparum, P. vivax, P. ovale and P. malariae.
- P. falciparum accounts for the majority of infections and is responsible for the vast majority of deaths attributable to ' malaria
- P. vivax causes a recurring chronic debilitating disease for which a vaccine is necessary.
- Malaria infection begins when a female Anopheles mosquito infected with one of the four Plasmodium species infectious for humans bites a person.
- the mosquito's saliva carries the malarial sporozoites into the blood. Approximately 30 minutes later these sporozoites enter the liver. Once in the liver, the sporozoites divide over the course of about 5 days, forming a schizont.
- a schizont may contain up to 30,000 merozoites, which spill into the bloodstream when the schizont ruptures. Within seconds, merozoites infect red blood cells (RBCs) and again replicate asexually, with each schizont producing up to 36 merozoites .
- RBCs red blood cells
- RBC bursts and liberates progeny other blood cells are infected.
- the cycle can continue until the person dies of anemia and/or other complications.
- a few of the merozoites in RBCs differentiate into gametocytes, a sexual form, which, if ingested by a mosquito, are liberated from the RBCs in the mosquito stomach and subsequently mate.
- the progeny, sporozoites accumulate in the saliva and the process starts again when the mosquito feeds [See, Hoffman et al . , (1996) "Attacking the Infected Hepatocyte", in Malaria Vaccine Development (ed. S.L. Hoffman), p.35. ASM Press, Washington, D.C., for review).
- P. vivax malaria is most prevalent in Latin America (where it is as or more prevalent than P. falciparum) and Asia. Although rarely fatal, P. vivax malaria has a dormant liver phase that is associated with relapses that show variability in duration, depending on the strain.
- Primaquine is the only antimalarial drug that is effective against hyponozoites, which are associated with the dormant phase in the liver responsible for relapses.
- Different P. vivax strains show differential patterns of relapse; for example, a Korean P. vivax strain has been shown to be 100 percent radically cured by a given primaquine regime (WHO, 1967) , whereas the same regime is only 70 percent effective with the Chesson strain [Coatney et al., J " . Natl . Malaria Soc , 1962. 9: p. 285-292].
- primaquine-resistant P.vivax in south-east Asia [Charoenlarp et al .
- the first and most attractive approach is the pre-erythrocytic vaccine, which aims to block sporozoite entry into the hepatocyte and/or release of merozoites into the blood stream.
- sporozoites migrate to the liver and begin the exoerythrocytic stage of their lifecycle.
- Successful blocking of hepatocyte entry, or the destruction of infected hepatocytes prior to liberation of merozoites, would prevent the disease, the passage of the parasite on to feeding mosquitoes, and merozoite release and subsequent invasion of red blood cells.
- a second approach is to develop an ' antidisease ' vaccine.
- the target is the red blood cell stage of the infection, during which the parasite grows at an exponential rate.
- MSP-1 merozoite surface protein 1
- AMA-1 apical membrane antigen 1
- This stage is thought to represent a conceptually more difficult target compared with the pre-erythrocytic stage, which is associated with 10-20 sporozoites per mosquito bite, due to the tremendous increase in parasite load once the blood stage is reached.
- a third approach known as the 'transmission- blocking' vaccine, would not stop infection or symptoms in the individual. However, it would prevent infection from spreading to others by blocking the lifecycle in the mosquito by inducing antibodies that the mosquito would ingest from the host with its blood meal .
- This vaccine approach is more attractive as a long-term global solution to eradication of malaria and less attractive to the immediate needs of travelers and the military forces.
- Antibodies to the CS protein also correlated positively with protection in immunized mice and in naturally infected individuals. These studies strongly suggest that anti-CS repeat antibodies alone are able to confer protection against malaria infection, provided sufficient antibody titers can be raised. The identification of this epitope therefore enabled, for the first time, the strategic development of synthetic CS-based malaria vaccines. Several malaria vaccine candidates employing different carriers were developed based upon the identification of this epitope. The main focus of malaria vaccine development has been on P. falciparum, and it is widely assumed that information gained from studying P. falciparum extend to other Plasmodium species, including P. vivax. A brief overview of four pre-erythrocytic P. falciparum malaria vaccine candidates is given below.
- the (NANP) 3 synthetic peptide conjugated to the protein carrier tetanus toxoid (TT) was the first synthetic malaria vaccine to undergo phase I and phase II clinical trials in the late 1980s [Etlinger et al . , Immunology, (1988) 64(3): p. 551-558; Etlinger et al . , J " . Immunol . , (1988) 140(2): p. 626-633 and Herrington et al . , Nature, (1987) 328(6127): p. 257-259].
- TT is widely known to provide powerful T cell help for coupled immunogens .
- the three having the highest titers of anti-sporozoite antibodies were selected for challenge studies.
- One of the vaccine recipients remained free of parasitaemia at 29 days, whereas the other two did not exhibit asexual stage parasites until 11 days, compared with a mean of 8.5 days for the un-vaccinated control group. Therefore, protection again correlated positively with anti-NANP titers.
- Nardin and coworkers at NYU have been able elicit relatively high titers of anti-CS antibody in a diverse range of genetic backgrounds by combining the NANP repeat epitope with the T cell site identified by Berzofsky and Good [Good et al . , Science, (1987) 235(4792): p. 1059-62] in a MAP format [Calvo-Calle et al., J " . Immunol . , (1993) 150(4): p. 1403-1412].
- Nardin and co-workers Using their proprietary 'universal' form of the CS T cell epitope, Nardin and co-workers have been able to elicit anti-CS antibodies in all genetic backgrounds tested, suggesting that genetic restriction is alleviated by inclusion of this epitope.
- MAPS have proven to be excellent research tools, providing valuable insight into immune recognition of the CS protein, there are several intrinsic , problems associated with using them in a commercial vaccine. Their commercial utility has yet to be established relative to manufacturing and cost issues. Nevertheless, ongoing human clinical testing of these vaccine candidates will provide very useful information pertaining to the actual anti-NANP titers necessary for protective immunity.
- HBsAg hepatitis B surface antigen
- SKB SmithKline Beecham
- That patent inter alia discloses a hybrid protein comprised of all of the C-terminal portion of the CS protein, four or more tandem repeats of the CS immunodominant region and the hepatitis B surface antigen.
- the CS epitopes include the NANP repeat, in concert with additional CS epitopes, including the T cell site identified by Berzofsky and Good
- HBcAg is a particulate protein derived from the hepatitis B virus that has been proposed as a carrier for heterologous epitopes.
- the relative immunogenicity of HBsAg (HBs) has been compared with HbcAg (HBc) , and the ability of each to evoke immune responses in different genetic backgrounds [Milich et al . , Science, (1986) 234(4782): p. 1398-1401].
- HBc is more than 300 times more immunogenic than HBs in BALB/c mice; and, although both B10.S and B10.M mice are non-responders to HBs, every strain tested is responsive to HBc.
- berghei particle were shown to prime antibody responses effectively over a wide range of genetic backgrounds, confirming the universal priming effects of HBc [Schodel et al . , J. Exp . Med. , (1994) 180 (3) : p. 1037-46] .
- HBc carrier Another advantage of the HBc carrier is the fact that it does not require complex adjuvants for efficacy. This is due to the high inherent immunogenicity of the particle. A comparison of the immunogenicity of HBc-P. berghei particles showed that alum, which is approved for human use, was more effective than either IFA or CFA [Schodel et al . , J “ . Exp . Med. , (1994) 180(3): p. 1037-46]. The importance of this observation is highlighted by toxicity problems associated with newer, more complex adjuvants as was recently noted in clinical trials of SKB's candidate malaria vaccine [Stoute et al . , N. Engl . J. Med.
- the immunodominant B cell epitope of the CS protein of P. falciparum which has been more widely studied than P. vivax, is a highly conserved repeated tetrapeptide (NANP) [Zavala et al . , Science, (1985) 228(4706): p. 1436-40], and antibodies to this epitope have been shown to be sporozoite-neutralizing in protecting against rodent and human malaria. Immune responsiveness to this epitope has been positively correlated with immunity to malaria in both vaccine recipients and naturally infected individuals.
- NANP repeated tetrapeptide
- the family hepadnaviridae are enveloped DNA-containing animal viruses that can cause hepatitis B in humans (HBV) .
- the hepadnavirus family includes hepatitis B viruses of other mammals, e.g., woodchuck (WHV) , and ground squirrel (GSHV) , and avian viruses found in ducks (DHV) and herons (HeHV) .
- Hepatitis B virus (HBV) used herein refers to a member of the family hepadnaviridae, unless the discussion is referring to a specific example.
- the nucleocapsid or core of the mammalian hepatitis B virus contains a sequence of 183 or 185 amino acid residues, depending on viral subtype, whereas the duck virus capsid contains 262 amino acid residues.
- Hepatitis B core protein monomers self-assemble into stable aggregates known as hepatitis B core protein particles (HBc particles) . Two three-dimensional structures are reported for HBc particles. A first that comprises a minor population contains 90 copies of the HBc subunit protein as dimers or 180 individual monomeric proteins, and a second, major population that contains 120 copies of the HBc subunit protein as dimers or 240 individual monomeric proteins.
- These human HBc particles are about are about 30 or 34 nm in diameter, respectively.
- Pumpens et al . (1995) Intervirology , 38:63-74; and Metzger et al . , (1998) J “ . Gen . Viol . , 79:587-590. See also, Wynne et al . , (June 1999) Mol . Cell , 3:771-780.
- the nucleocapsid or viral core protein has been disclosed as an immunogenic carrier moiety that stimulates the T cell response of an immunized host animal. See, for example, U.S. Patents No. 4,818,527, No 4,882,145 and No. 5,143,726.
- a particularly useful application of this carrier is its ability to present foreign or heterologous B cell epitopes at the site of the immunodominant loop that is present at about residue positions 70-90, and more usually recited as about positions 75 through 85 from the amino-terminus (N- terminus) of the protein. Clarke et al . (1991) F. Brown et al . eds., Vaccines 91 , Cold Spring Harbor Laboratory, Cold Spring Harbor, New York, pp.313-318.
- HBV nucleocapsids associate with the viral RNA pre-genome, the viral reverse transcriptase (Pol) , and the terminal protein (derived from Pol) to form replication competent cores.
- the association between the nucleocapsid and the viral RNA pre-genome is mediated via an arginine- rich domain at the carboxyl-terminus (C-terminus) .
- C-terminus carboxyl-terminus
- HBV nucleocapsids In an application as a vaccine carrier moiety, it is preferable that the HBV nucleocapsids not bind nucleic acid derived from the host . Birnbaum et al . , (1990) J. Virol . 64, 3319-3330 showed that the protamine-like C-terminal domain of HBV nucleocapsids could be deleted without interfering with the protein's ability to assemble into virus- like particles. It is thus reported that proteins truncated to about position 144; i.e., containing the HBc sequence from position one through about 144, can self-assemble, whereas deletions beyond residue 139 abrogate capsid assembly [Seifer et al . , (1995) Intervirology, 38:47-62].
- Chimeric hepatitis B core particles have been prepared by heterologous expression in a wide variety of organisms, including E. coli , B. subtilis, Vaccinia, Salmonella typhimurium, Saccharomyces cerevisiae. See, for example Pumpens et al . , (1995) Intervirology, 38:63-74 , and the citations therein that note the work of several research groups, other than the present inventors.
- Th universal T
- the priming of malaria-specific Th cells ensures that, should a vaccine recipient be exposed to malaria, a more rapid and stronger anti-malaria response is activated due to previous priming of malaria specific T-helper cells.
- vaccinees living in malaria endemic regions experience natural 'boosting' every time they are exposed to the parasite, because their immune systems have been primed at both the B and Th cell level. This effect is similar to clinical boosting by re- vaccination, a process that can be difficult to coordinate in developing countries where malaria is endemic.
- this consensus epitope is 'universal', like the T cell help afforded by HBc, and suggests that it primes malaria-specific Th cells in essentially all vaccine recipients.
- APC antigen presenting cells
- the present invention provides a contemplated HBc chimer that provides unexpectedly high titers of antibodies against malaria sporozoites, and in one aspect also provides a solution to the problems of HBc chimer stability as well as the substantial absence of nucleic acid binding ability of the construct.
- a contemplated recombinant chimer exhibits minimal, if any, antigenicity toward preexisting anti-HBc antibodies.
- the present invention contemplates an immunogen for inducing antibodies to the malaria- causing parasite, Plasmodium, and particularly the species P. falciparum and P. vivax, and a vaccine comprising that immunogen dispersed in a physiologically tolerable diluent.
- a contemplated immunogen is a recombinant hepatitis B virus core (HBc) protein chimer molecule with a length of about 140 to about 310 amino acid residues that contains four peptide-linked amino acid residue sequence domains from the N-terminus that are denominated Domains I, II, III and IV.
- HBc hepatitis B virus core
- the first domain, Domain I comprises about 71 to about 85 amino acid residues whose sequence includes at least the sequence of the residues of position 5 through position 75 of HBc.
- the second domain, Domain II comprises about 18 to about 58 amino acid residues peptide- bonded to residue 75 of which (i) a sequence of HBc is present from HBc positions 76 through 85 and (ii) a sequence of 8 to about 48 residues that constitute a B cell epitope of the CS protein of a species of the parasite Plasmodium that is peptide-bonded between the HBc residues of positions 78 and 79.
- the third domain, Domain III is an HBc sequence from position 86 through position 135 peptide-bonded to residue 85.
- the fourth domain, Domain IV comprises (i) zero to fourteen residues of a HBc amino acid residue sequence from position 136 through 149 peptide-bonded to the residue of position 135 of Domain III, (ii) zero to three cysteine residues, (iii) fewer than three arginine or lysine residues, or mixtures thereof adjacent to each other, and (iv) up to about 100 amino acid residues in a sequence heterologous to HBc from position 150 to the C-terminus, with the proviso that at least five amino acid residues are present of the amino acid residue sequence from position 136 through 149; i. e., residues of positions 136-140, when (a) zero cysteine residues are present and (b) fewer than about five heterologous amino acid residues are present, thus, Domain IV contains at least 5 residues .
- the immunogen is in the form of self-assembled particles and the Plasmodium B cell epitope is that of P. falciparum or P. vivax. It is also preferred that the HBc sequence of Domain I includes the residues of position 1 through position 75 with no additional residues at the N-terminus. It is further preferred that a contemplated immunogen contain one cysteine residue within Domain IV in an amino acid residue sequence heterologous to that of HBc from position 150 to the C-terminus. It is particularly preferred that that heterologous sequence comprise a T cell epitope from the same species of Plasmodium as the B cell epitope.
- Another embodiment comprises an inoculum or vaccine that comprises an above HBc chimer particle that is dissolved or dispersed in a pharmaceutically acceptable diluent composition that typically also contains water.
- an inoculum When administered in an immunogenic effective amount to an animal such as a mammal or bird, an inoculum induces antibodies that immunoreact specifically with the chimer particle or the conjugated (pendently-linked) hapten.
- the antibodies so induced also preferably immunoreact specifically with (bind to) an antigen containing the hapten, such as a protein where the hapten is a peptide or a saccharide where the hapten is an oligosaccharide .
- the present invention has several benefits and advantages .
- a particular benefit of the invention is that its use as a vaccine provides extraordinary antibody titers against the Plasmodium species of the B cell epitope.
- An advantage of the invention is that those very high antibody titers have been produced with the aid of an adjuvant approved for use in humans.
- Another benefit of the invention is that the recombinant immunogen is prepared easily and using well known cell culture techniques.
- Another advantage of the invention is that the immunogen is easily prepared using well known recombinant techniques .
- a preferred immunogen exhibits greater stability at elevated temperatures than to other HBc chimers .
- Fig. 1 shows the modifications made to commercial plasmid vector pKK223-3 in the preparation of plasmid vector pKK223-3N used herein for preparation of recombinant HBc chimers.
- the modified sequence (SEQ ID NO: 180) is shown below the sequence of the commercially available vector (SEQ ID NO: 181) .
- the bases of the added Ncol site are shown in lower case letters and the added bases are shown with double underlines, whereas the deleted bases are shown as dashes.
- the two restriction sites present in this segment of the sequence (Ncol and Hindlll) are indicated.
- Fig. 2 shown in three panels as Figs. 2A, 2B and 2C, schematically illustrates a preferred cloning strategy in which a malarial B cell epitope such as (NANP) 4 (SEQ ID NO:l) is cloned into the
- FIG. 2A shows DNA (double stranded and encoded amino acid residue sequence) that encodes a T cell- epitope such as that referred to as Pf/CS326-345 (Pf/CS-UTC) and a stop codon (SEQ ID NOs : 79 and 80) cloned into the EcoRI and Hindlll sites at the C-terminus of an engineered, truncated HBc gene containing the first 149 HBc residues (HBcl49) .
- Fig. 2C using a primer having a 5'- terminal Sacl restriction site adjacent to a HBc- encoding sequence beginning at residue position 79 followed by digestion of the amplified sequence and the construct of Fig. 2A with Sacl, followed by ligation of the appropriate portions is shown in Fig. 2C to form a single gene construct referred to hereinafter as V12 that encodes a B cell- and T cell- containing immunogen for a vaccine against P. fal ciparum .
- Fig. 3 is a photograph of an SDS-PAGE analysis under reducing conditions to show the stabilizing effects on expressed particles of a codon for a single cysteine residue inserted in frame between the C-terminal codon (V149) and the termination codon of HBc in a chimer that also contains (NANP) 4 inserted between the amino acids of positions 78 and 79 (V2.Pfl+C), and a similar construct whose C-terminus is residue V149 (V2.Pfl) at day zero and after 15 days at 37°C. [Lane 1,
- Fig. 4 is a photograph of an SDS-PAGE analysis under reducing conditions that illustrates the stabilizing effects on chimer HBcl49 particles containing (NANP) 4 inserted between amino acids 78 and 79 and the cysteine-containing T cell epitope fused to the C-terminus [V2. Pf1+Pf/CS-UTC also referred to as V12.Pfl] as compared to a similar particle in which the C-terminal Cys was replaced by an Ala residue [V2.Pfl+ Pf/CS-UTC (C17A) also referred to as V12.Pfl (C17A) ] at day zero and after 28 days at
- Fig. 5 is a graph showing the results of an indirect immunofluorescence assay (IFA) carried out using glutaraldehyde-fixed P. falciparum sporozoites and FITC-labeled anti-mouse IgG (gamma-chain specific) to detect bound antibody titers (log of l/dilution; ordinate) over time in weeks (abscissa) for three chimeric immunogens after immunization in mice.
- Data for the prior art chimer immunogen, CS-2 are shown as squares, those for the recombinant HBc chimer V12.Pfl are shown as diamonds, whereas those for the recombinant HBc chimer V12.Pf3.1 are shown as triangles .
- Fig.6 shown in two panels as Fig. 6A and Fig. 6B, provides an alignment of six published sequences for mammalian HBc proteins from six viruses.
- the first (SEQ ID NO:170), human viral sequence is of the ayw subtype and was published in Galibert et al . (1983) Nature, 281:646-650;
- the second human viral sequence (SEQ ID NO:171), of the adw subtype, was published by Ono et al . (1983) Nucleic Acids Res . , 11(6): 1747-1757;
- the third human viral sequence (SEQ ID NO:172), is of the adw2 subtype and was published by Valenzuela et al .
- the fourth human viral sequence (SEQ ID NO: 173), is of the adyw subtype that was published by Pasek et al . (1979) Nature, 282:575-579;
- the fifth sequence (SEQ ID NO: 174), is that of the woodchuck virus that was published by Galibert et al . (1982) J " . Virol . , 41:51- 65;
- the sixth mammalian sequence, (SEQ ID NO: 168) is that of the ground squirrel that was published by Seeger et al . (1984) J. Virol . , 51 : 361 - 375.
- Figure 7 is a photograph of an SDS-PAGE analysis under reducing conditions following incubations at 37°C for 0, 1 and 2 days that illustrates the stabilizing effects on (1) chimer HBcl49 particles containing the P. falciparum (NANP) 4 immunogenic sequence inserted between HBc amino acid residues 78 and 79 that also contain a carboxy- terminal universal P.
- NANP P. falciparum
- HBcl49 indicates that the chimer ends at residue 149
- HBc149 + C150 indicates that that same chimer contains a cysteine residue at HBc position 150.
- the malarial CS protein universal T cell epitope (UTC) is 20 residues long, and a replacement of the cysteine at position 17 in that sequence by an alanine is referred to as CS- UTC(C17A) .
- the term "antibody” refers to a molecule that is a member of a family of glycosylated proteins called immunoglobulins, which can specifically bind to an antigen.
- antigen has been used historically to designate an entity that is bound by an antibody or receptor, and also to designate the entity that induces the production of the antibody. More current usage limits the meaning of antigen to that entity bound by an antibody or receptor, whereas the word “immunogen” is used for the entity that induces antibody production or binds to the receptor. Where an entity discussed herein is both immunogenic and antigenic, reference to it as either an immunogen or antigen is typically made according to its intended utility.
- Antigenic determinant refers to the actual structural portion of the antigen that is immunologically bound by an antibody combining site or T-cell receptor. The term is also used interchangeably with “epitope” .
- conjugate refers to a hapten operatively linked to a carrier protein, as through an amino acid residue side chain.
- conservative substitution denotes that one amino acid residue has been replaced by another, biologically similar residue.
- conservative substitutions include the substitution of one hydrophobic residue such as isoleucine, valine, leucine or methionine for another, or the substitution of one polar residue for another such as between arginine and lysine, between glutamic and aspartic acids or between glutamine and asparagine and the like.
- the term “corresponds” in its various grammatical forms as used in relation to peptide sequences means the peptide sequence described plus or minus up to three amino acid residues at either or both of the amino- and carboxy-termini and containing only conservative substitutions in particular amino acid residues along the polypeptide sequence.
- Domain is used herein to mean a portion of a recombinant HBc chimer molecule that is identified by (i) residue position numbering relative to the position numbers of HBcAg subtype ayw as reported by Galibert et al . , (1979) Nature, 281:646- 650 (SEQ ID NO: 170) .
- the polypeptide portions of at least chimer Domains I, II and III are believed to exist in a similar tertiary form to the corresponding sequences of naturally occurring HBcAg.
- fusion protein designates a polypeptide that contains at least two amino acid residue sequences not normally found linked together in nature that are operatively linked together end-to-end (head-to-tail) by a peptide bond between their respective carboxy- and amino-terminal amino acid residues.
- the fusion proteins of the present invention are HBc chimers that induce the production of antibodies that immunoreact with a polypeptide or pathogen-related immunogen that corresponds in amino acid residue sequence to the polypeptide or pathogen-related portion of the fusion protein.
- hepatitis B refers in its broadest context to any member of the family hepadnaviridae, as discussed before.
- the present invention contemplates an immunogen and a vaccine comprising that immunogen against the malaria parasite, particularly those that infect humans; i.e., P. falciparum and P. vivax.
- immunogen against the malaria parasite particularly those that infect humans; i.e., P. falciparum and P. vivax.
- P. falciparum and P. vivax Historically, one of the main shortfalls of peptide- based vaccines has been the lack of persistence of antibody following immunization.
- high titers of neutralizing antibody are maintained for more than 6 months in mice following a 2 -dose immunization regimen. This is consistent with and superior to the protection studies in the P.
- a contemplated immunogen is a recombinant hepatitis B virus core (HBc) protein chimer molecule with a length of about 140 to about 310 and preferably about 155 to 235 amino acid residues that contains four peptide-linked amino acid residue sequence domains from the N-terminus that are denominated Domains I, II, III and IV.
- HBc hepatitis B virus core
- (a) Domain I comprises about 71 to about 85 amino acid residues whose sequence includes at least the sequence of the residues of position 5 through position 75 of HBc.
- Domain II comprises about 11 to about 58 amino acid residues peptide-bonded to residue 75.
- This sequence includes (i) a sequence of HBc from HBc positions 76 through 85 and (ii) a sequence of 8 to about 48 residues that constitute a B cell epitope of the circumsporozoite protein of a species of the parasite Plasmodium that is peptide-bonded between the HBc residues of positions 78 and 79.
- Domain III is an HBc sequence from position 86 through position 135 that is peptide- bonded to residue 85.
- Domain IV comprises (i) zero to fourteen residues of a HBc amino acid residue sequence from position 136 through 149 peptide-bonded to the residue of position 135 of Domain III, (ii) zero to three cysteine residues, (iii) fewer than three arginine or lysine residues, or mixtures thereof adjacent to each other, and (iv) up to 100, and preferably up to 25, amino acid residues in a sequence heterologous to HBc from position 150 to the C-terminus, with the proviso that at least five amino acid residues of the amino acid residue sequence from position 136 through 149; i.e., residues of positions 136-140, are present when (a) zero cysteine residues are present and (b) fewer than about five heterologous amino acid residues are present .
- such a recombinant protein can have a length of about 140 to about 310 amino acid residues. Preferably, that length is about 155 to about 235 residues. More preferably, the length is about 165 to about 210 residues. Most preferably, the length is about 190 to about 200 residues. These differences in length arise from changes in the length of Domains I, II and IV.
- HBc chimers having a Domain I that contains more than a deletion of the first three amino- terminal (N-terminal) residues have been reported to result in the complete disappearance of HBc chimer protein in E. coli cells. Pumpens et al . , (1995) Intervirology, 38:63-74.
- a recent study in which an immunogenic 23-mer polypeptide from the influenza M2 protein was fused to the HBc N- terminal sequence reported that the resultant fusion protein formed particles when residues 1-4 of the native HBc sequence were replaced. Neirynck et al . (October 1999) Nature Med. , 5 (10) : 1157-1163.
- particles can form when an added amino acid sequence is present peptide-bonded the one of residues 1-5 of HBc, whereas particles do not form if no additional sequence is present and more than residues 1-3 are deleted from the N-terminus of HBc.
- An N-terminal sequence peptide-bonded to one of the first five N-terminal residues of HBc can contain a sequence of up to about 25 residues that are heterologous to HBc.
- Exemplary sequences include a B cell or T cell epitope such as those discussed hereinafter, a sequence of another (heterologous) protein such as ⁇ -galactosidase as can occur in fusion proteins as a result of the expression system used, or another hepatitis B-related sequence such as that from the Pre-Sl or Pre-S2 regions or the major HbsAg immunogenic sequence.
- Domain I preferably has the sequence of residues of positions 1 through 75 of HBc, and is free of added residues at the amino-terminus (N- terminus) . Domain I is also therefore preferably free of deletions of residues of positions 1-3.
- Domain II which is peptide-bonded to residue 75, contains the sequence of HBc residues of positions 76 through 85, and has a malarial B cell epitope whose length is 8 through about 28 residues peptide-bonded between residues 78 and 79. Preferred malarial B cell epitopes are discussed hereinafter.
- Preferred malarial B cell epitopes for insertion between residues 78 and 79 of a recombinant HBc chimer are enumerated in Table A, below.
- NANP 3 NVDPNANP SEQ ID NO : 4
- NPNVDP (NANP) 3 NV SEQ ID NO : 6
- ANGADNQPGANGADDQPG SEQ ID NO: 18 ANGAGNQPGANGADNQPG SEQ ID NO: 19 ANGADNQPGANGADDQPG SEQ ID NO: 20 APGANQEGGA ⁇ APGANQEGGA ⁇ SEQ ID NO: 21
- Domain III contains the sequence of HBc position 86 through position 135 peptide-bonded at its N-terminus to residue 85.
- Domain IV comprises (i) zero to fourteen residues of a HBc amino acid residue sequence from position 136 through 149 peptide-bonded to the residue of position 135 of Domain III, (ii) zero to three cysteine residues, (iii) fewer than three arginine or lysine residues, or mixtures thereof adjacent to each other, and (iv) up to about 100 amino acid residues in a sequence heterologous to HBc from position 150 to the C-terminus (typically as one or more T cell epitopes), with certain provisos.
- Domain IV can contain up to about 100 residues that are heterologous to HBc from position 150 through the C-terminus, this domain needs no residues in addition to those recited before to provide an effective immunogen.
- chimeric protein ends at HBc residue 135, desired, particularly immunogenic particles do not form even when a C-terminal cysteine is present.
- desired particles do form when residues of positions 136-140 are present with or without an added C-terminal cysteine or when (a) one cysteine residue is present and (b) about five heterologous amino acid residues are also present peptide-bonded to HBc residue 135.
- Domain IV can end at HBc residue 135 so long as at least five heterologous residues are present and a cysteine residue is also present. Otherwise, Domain IV ends at least at HBc residue 140.
- Domain IV contains at least 5 amino acid residues .
- Domain IV contain up to fourteen residues of an HBc sequence from position 136 through position 149 peptide-bonded to residue 135; i.e., an HBc sequence that begins with the residue of position 136 that can continue through position 149.
- residue of position 148 is present, so is the sequence of residues of positions 136 through 147, or if residue 141 is present, so is the sequence of residues of positions 136 through 140.
- Domain IV comprises a sequence of HBc from residue 136 through 140 peptide- bonded to the residue of position 135 of Domain III.
- the remainder of Domain IV contains (i) zero to nine residues of a HBc amino acid residue sequence from position 141 through 149 peptide-bonded to the position 136-140 sequence, (ii) zero to three cysteine residues, (iii) fewer than three arginine or lysine residues, or mixtures thereof adjacent to each other, and (iv) up to 50 amino acid residues, and more preferably up to about 25 residues, in a sequence that constitutes a T cell epitope of the same species of Plasmodium as the B cell epitope peptide-bonded to the final HBc amino acid residue present in the chimer or a cysteine residue.
- the T cell epitope can be bonded to the carboxy-terminal-most HBc residue such as residue 149, or to a cysteine residue that is bonded to that
- Domain IV can also contain zero to three cysteine residues and those Cys residues are present within about 30 residues of the carboxy-terminus (C- terminus) of the chimer molecule.
- one cysteine (Cys) residue is present, and that Cys is preferably present as the carboxy-terminal (C- terminal) residue, unless a malarial T cell epitope is present as part of Domain IV.
- the preferred Cys is preferably within the C-terminal last five residues of the HBc chimer. Preferred malarial T cell epitopes are discussed hereinafter.
- cysteine residue provides an unexpected enhancement of the ability of the chimer molecules to form immunogenic particles, as well as unexpected thermal stability to an immunogen particle (discussed hereinafter) .
- a preferred HBc chimer immunogen tends to be stable to decomposition at 37°C to a greater extent than does a similar chimer lacking that cysteine residue. This enhanced stability is illustrated in Figs. 3, 4 and 7, and is discussed hereinafter.
- Domain IV contains fewer than three arginine or lysine residues, or mixtures thereof adjacent to each other.
- Arginine and lysines are present in the C-terminal region of HBc that extends from position 150 through the C-terminus of the native molecule. That region is sometimes referred to in the are as the "protamine” or "arginine-rich” region of the molecule and is thought to bind to nucleic acids.
- a contemplated HBc chimer molecule and particle are substantially free of bound nucleic acids .
- the substantial freedom of nucleic acid binding can be readily determined by a comparison of the absorbance of the particles in aqueous solution measured at both 280 and 260 nm; i.e., a 280/260 absorbance ratio.
- the contemplated particles do not bind substantially to nucleic acids that are oligomeric and/or polymeric DNA and RNA species originally present in the cells of the organism used to express the protein.
- nucleic acids exhibit an absorbance at 260 nm and relatively less absorbance at 280 nm, whereas a protein such as a contemplated chimer absorbs relatively less at 260 nm and has a greater absorbance at 280 nm.
- recombinantly expressed HBc particles or chimeric HBc particles that contain the arginine- rich sequence at residue positions 150-183 (or 150- 185) exhibit a ratio of absorbance at 280 nm to absorbance at 260" nm (280:260 absorbance ratio) of about 0.8
- particles free of the arginine- rich nucleic acid binding region of naturally occurring HBc such as those that contain fewer than three arginine or lysine residues or mixtures thereof adjacent to each other, or those having a native or chimeric sequence that ends at about HBc residue position 140 to position 149, exhibit a 280:260 absorbance ratio of about 1.2 to about 1.6.
- Chimeric HBc particles of the present invention are substantially free of nucleic acid binding and exhibit a 280:260 absorbance ratio of about 1.2 to about 1.6, and more typically, about 1.4 to about 1.6. This range is due in large part to the number of aromatic amino acid residues present in Domains II and IV of a given chimeric HBc particle. That range is also in part due to the presence of the Cys in Domain IV of a contemplated chimer, whose presence can diminish the observed ratio by about 0.1 for a reason that is presently unknown.
- the contemplated chimer HBc particles are more stable in aqueous buffer at 37°C over a time period of about two weeks to about one month than are particles formed from a HBc chimer containing the same peptide-linked Domain I, II and III sequences and an otherwise same Domain IV sequence in which the one to three cysteine residues [C-terminal cysteine residue (s) ] are absent or a single C-terminal residue present is replaced by another residue such as an alanine residue. Stability of various chimer particles is determined as discussed hereinafter.
- particles containing a heterologous malarial epitope in Domain II [e.g. (NANP) 4] and a single cysteine residue C-terminal to residue valine 149 is more stable than otherwise identical particles assembled from chimer molecules whose C-terminal residue is valine 149.
- particles containing the above malarial B cell epitope in Domain II and the universal malarial T cell epitope that contains a single cysteine near the C-terminus are more stable than are otherwise identical particles in which that cysteine is replaced by an alanine residue. See, Figs. 3, 4 and 7 and the discussion relating thereto hereinafter.
- a contemplated particle containing a C- terminal cysteine residue is also typically prepared in greater yield than is a particle assembled from a chimer molecule lacking a C-terminal cysteine. This increase in yield can be seen from the mass of particles obtained or from integration of traces from analytical gel filtration analysis using Superose ® 6 HR as discussed hereinafter and shown in Tables 9A and 9B.
- HBc Although the T cell help afforded by HBc is highly effective in enhancing antibody responses (i.e. B cell-mediated) to 'carried' epitopes following vaccination, HBc does not activate malaria- specific T cells, except in restricted individuals for whom the B cell epitope is also a T cell epitope.
- B cell-mediated antibody responses
- HBc does not activate malaria- specific T cells, except in restricted individuals for whom the B cell epitope is also a T cell epitope.
- one or more malaria-specific T helper epitopes is preferably incorporated into a contemplated immunogen and is located in Domain IV of the immunogen.
- a particularly preferred recombinant HBc chimer includes a T cell epitope of the same Plasmodium species as the B cell epitope.
- the B cell epitope of Domain II is that of P . falciparum
- the T cell epitope is also that of P. falciparum, and the like.
- T cells are primed to the same species as that to which antibodies are initially induced by the B cell epitope.
- Particularly preferred T cell epitopes present as a part of Domain IV are enumerated in Table B, below. Table B Malarial Universal T Cell Epitope
- a plurality of the above or another T cell epitopes can be present in Domain IV or another B cell epitope can be present.
- Domain IV has up to about 50 residues in a sequence heterologous to HBc. Most preferably, that sequence is up to about 25 residues and includes one of the universal T cell epitopes shown in Table B, above.
- a contemplated recombinant HBc chimer molecule is typically present and is used in an immunogen or vaccine as a self-assembled particle. These particles are comprised of 180 to 240 chimer molecules that separate into protein molecules in the presence of disulfide reducing agents such as 2- mercaptoethanol , and the individual molecules are therefore thought to be bound together into the particle primarily by disulfide bonds. These particles are similar to the particles observed in patients infected with HBV, but these particles are non-infectious. Upon expression in various prokaryotic and eukaryotic hosts, the individual recombinant HBc chimer molecules assemble in the host into particles that can be readily harvested from the host cells.
- the amino acid sequence of HBc from residue position 1 through at least position 140 is preferably present in a contemplated chimer molecule and particle.
- the sequence from position 1 through position 149 is more preferably present.
- a malarial B cell epitope is present between residues 78 and 79 and a single cysteine residue or a malarial T cell epitope containing a cysteine residue is preferably present as a C-terminal addition to the HBc sequence as part of Domain IV.
- a contemplated recombinant HBc chimer is substantially free of bound nucleic acid.
- a preferred chimer particle that contains an added Cys residue at or near the C-terminus of the molecule is also more stable at 37°C than is a similar particle that does not contain that added Cys.
- a contemplated chimer molecule can also contain conservative substitutions in the amino acid residues that constitute HBc Domains I, II, III and IV. Conservative substitutions are as defined before.
- a "nonconservative" change e.g., replacement of a glycine with a tryptophan is contemplated.
- Analogous minor variations can also include amino acid deletions or insertions, or both.
- Guidance in determining which amino acid residues can be substituted, inserted, or deleted without abolishing biological activity can be found using computer programs well known in the art, for example LASERGENE software (DNASTAR Inc., Madison, Wis.)
- the HBc portion of a chimer molecule of the present invention [the portion having the HBc sequence that has other than a sequence of an added epitope, or heterologous residue (s) that are a restriction enzyme artifact] most preferably has the amino acid residue sequence at positions 1 through 149 of subtype ayw that is shown in Fig. 6 (SEQ ID NO:170), when present. Somewhat less preferred are the corresponding amino acid residue sequences of subtypes adw, adw2 and adyw that are also shown in Fig. 6 (SEQ ID NOs:171, 172 and 173).
- sequences of woodchuck and ground squirrel at aligned positions 1 through 149 that are the last two sequences of Fig 6 (SEQ ID NOs:174 and 168) .
- portions of different sequences from different mammalian HBc proteins can be used together in a single chimer.
- HBc portion of a chimer molecule of the present invention has other than a sequence of a mammalian HBc molecule at positions 1 through 149, when present, because one or more conservative substitutions has been made, it is preferred that no more than 10 percent, and more preferably no more than 5 percent, and most preferably no more than 3 percent of the amino acid residues are substituted as compared to SEQ ID NO: 170 from position 1 through 149.
- a contemplated chimer of 149 HBc residues can therefore contain up to about 15 residues that are different from those of SEQ ID NO: 170 at positions 1 through 149, and preferably about 7 or 8 residues.
- a contemplated chimeric immunogen is prepared using the well known techniques of recombinant DNA technology. Thus, sequences of nucleic acid that encode particular polypeptide sequences are added and deleted from the precursor sequence that encodes HBV.
- the HBc immunodominant loop is usually recited as being located at about positions 75 through 85 from the amino-terminus (N-terminus) of the intact protein.
- the malarial B cell epitope-containing sequence is placed into that immunodominant loop sequence of Domain II . That placement substantially eliminates the HBc immunogenicity and antigenicity of the HBc loop sequence, while presenting the malarial B cell epitope in an extremely immunogenic position in the assembled chimer particles.
- a first, less successful strategy is referred to as replacement in which DNA that codes for a portion of the loop is excised and replaced with DNA that encodes a malarial B cell sequence.
- the second strategy is referred to as insertion in which a malarial B cell sequence is inserted between adjacent residues in the loop.
- PCR polymerase chain reaction
- a replacement approach to provide a chimeric HBc DNA sequence that encodes a pair of different restriction sites, e.g. EcoRI and Sacl, one near each end of the immunodominant loop-encoding DNA.
- Exemplary residues replaced are 76 through 81.
- the loop-encoding section is excised, a desired malarial B cell epitope-encoding sequence flanked on each side by appropriate HBc sequence residues is ligated into the restriction sites and the resulting DNA is used to express the HBc chimer. See, for example, Table 2 of Pumpens et al . , (1995) Intervirology, 38:63-74 for exemplary uses of a similar technique.
- a single restriction site or two sites can be encoded into the region, the DNA cut with a restriction enzyme (s) to provide "sticky" or ends, and an appropriate sticky- or blunt-ended heterologous DNA segment ligated into the cut region.
- a restriction enzyme s
- Examples of this type of sequence replacement into HBc can be found in the work reported in Schodel et al . , (1991) F. Brown et al . eds., Vaccines 91 , Cold Spring Harbor Laboratory, Cold Spring Harbor, New York, pp.319-325, Schodel et al . , Behring Inst . Mi tt . , 1997(98): p. 114-119 and Schodel et al . , J. Exp. Med. , (1994) 180(3): p. 1037-4, the latter two papers discussing the preparation of vaccines against P. yoelii and P. berghei , respectively.
- Insertion is therefore preferred.
- site- directed mutagenesis is used to create two restriction sites adjacent to each other and between codons encoding adjacent amino acid residues, such as those at residue positions 78 and 79. This technique adds twelve base pairs that encode four amino acid residues (two for each restriction site) between formerly adjacent residues in the HBc loop.
- the HBc loop amino acid sequence is seen to be interrupted on its N-terminal side by the two residues encoded by the 5' restriction site, followed toward the C-terminus by the malarial B-cell epitope sequence, followed by two more heterologous, non-loop residues encoded by the 3 ' restriction site and then the rest of the loop sequence.
- This same strategy is also preferably used for insertion into Domain IV of a T cell epitope or one or more cysteine residues that are not a part of a T cell epitope.
- Cleavage of that DNA with both enzymes provides one fragment that encodes HBc positions 1-78 3 ' -terminated with an EcoRI sticky end, whereas the other fragment has a 5 ' -terminal Sa sticky end and encodes residues of positions 79- 149.
- Ligation of a synthetic nucleic acid having a 5 ' AATT overhang followed by a sequence that encodes a desired malarial B cell epitope and a AGCT 3 ' overhang provides a HBc chimer sequence that encodes that B cell epitope flanked on each side by two heterologous residues (GI and EL, respectively) between residues 78 and 79, while destroying the EcoRI site and preserving the Sacl site.
- a cysteine-containing sequence such as a particularly preferred T cell epitope such as that referred to asPF/CS326-345 (Pf-UTC) .
- Pf-UTC PF/CS326-345
- EcoRI and Hindlll restriction sites were engineered in to the HBc DNA sequence after amino acid residue position 149.
- a synthetic DNA having the above AATT 5 'overhang followed by a T cell epitope-encoding sequence, a stop codon and a 3 ' AGCT overhang were ligated into the digested sequence to form a sequence that encoded HBc residues 1-149 followed by two heterologous residues (GI) , the stop codon and the Hindlll site.
- GI heterologous residues
- PCR amplification using a forward primer having a Sad restriction site followed by a sequence encoding HBc beginning at residue position 79, followed by digestion with Sad and Hindlll provided a sequence encoding HBc positions 79-149 plus the two added residues and the T cell epitope at the C- terminus.
- Digestion of the construct of Fig. 2B with Sad and ligation provided the complete gene encoding a desired recombinant HBc chimer immunogen having the sequence, from the N-terminus, of HBc positions 1-78, two added residues, the malarial B cell epitope, two added residues, HBc positions 79-149, two added residues, and the T cell epitope that is shown in Fig. 2C.
- a nucleic acid sequence that encodes a previously described HBc chimer molecule or a complement of that coding sequence is also contemplated herein. Such a nucleic acid segment is present in isolated and purified form in some preferred embodiments .
- the amino acid residue sequence of a protein or polypeptide is directly related via the genetic code to the deoxyribonucleic acid (DNA) sequence of the gene ' that codes for the protein.
- DNA deoxyribonucleic acid
- additional DNAs and corresponding RNA sequences can be prepared as desired that encode the same chimer amino acid residue sequences, but are sufficiently different from a before-discussed gene sequence that the two sequences do not hybridize at high stringency, but do hybridize at moderate stringency.
- High stringency conditions can be defined as comprising hybridization at a temperature of about 50°-55°C in 6XSSC and a final wash at a temperature of 68°C in 1-3XSSC.
- Moderate stringency conditions comprise hybridization at a temperature of about 50°C to about 65°C in 0.2 to 0.3 M NaCl, followed by washing at about 50°C to about 55°C in 0.2X SSC, 0.1% SDS (sodium dodecyl sulfate) .
- a nucleic sequence (DNA sequence or an RNA sequence) that (1) itself encodes, or its complement encodes, a chimer molecule whose HBc portion from residue position 1 through 136, when present, is that of SEQ ID NOs: 168, 170, 171, 172, 173 or 174 and (2 ) ⁇ hybridizes with a DNA sequence of SEQ ID NOs: 169, 175, 176, 177, 178 or 179 at least at moderate stringency (discussed above) ; and (3) whose HBc sequence shares at least 80 percent, and more preferably at least 90 percent, and even more preferably at least 95 percent, and most preferably 100 percent identity with a DNA sequence of SEQ ID NOs: 169, 175, 176, 177, 178 and 179, is defined as a DNA variant sequence.
- a nucleic acid sequence such as a contemplated nucleic acid sequence is expressed when operatively linked to an appropriate promoter in an appropriate expression system as discussed elsewhere herein.
- a chimer analog nucleic acid sequence or its complementary nucleic acid sequence encodes a HBc amino acid residue sequence that is at least 80 percent, and more preferably at least 90 percent, and most preferably is at least 95 percent identical to the HBc sequence portion from residue position 1 through residue position 136 shown in SEQ ID NOs: 168, 170, 171, 172, 173 and 174.
- This DNA or RNA is referred to herein as an "analog of” or “analogous to” a sequence of a nucleic acid of SEQ ID NOs: 169, 175, 176, 177, 178 and 179, and hybridizes with the nucleic acid sequence of SEQ ID NOs : 169, 175, 176, 177, 178 and 179 or their complements herein under moderate stringency hybridization conditions.
- a nucleic acid that encodes an analogous sequence upon suitable transfection and expression, also produces a contemplated chimer.
- Different hosts often have preferences for a particular codon to be used for encoding a particular amino acid residue. Such codon preferences are well known and a DNA sequence encoding a desired chimer sequence can be altered, using in vi tro mutagenesis for example, so that host- preferred codons are utilized for a particular host in which the enzyme is to be expressed.
- a useful analogous DNA sequence need not hybridize with the nucleotide sequences of SEQ ID NOs: 169, 175, 176, 177, 178 or 179 or a complement under conditions of moderate stringency, but can still provide a contemplated chimer molecule.
- a recombinant nucleic acid molecule such as a DNA molecule, comprising a vector operatively linked to an exogenous nucleic acid segment (e.g., a DNA segment or sequence) that defines a gene that encodes a contemplated chimer, as discussed above, and a promoter suitable for driving the expression of the gene in a compatible host organism, is also contemplated in this invention.
- an exogenous nucleic acid segment e.g., a DNA segment or sequence
- a promoter suitable for driving the expression of the gene in a compatible host organism is also contemplated in this invention.
- a recombinant DNA molecule that comprises a vector comprising a promoter for driving the expression of the chimer in host organism cells operatively linked to a DNA segment that defines a gene for the HBc portion of a chimer or a DNA variant that has at least 90 percent identity to the chimer gene of SEQ ID NOs: 169, 175, 176, 177, 178 or 179 and hybridizes with that gene under moderate stringency conditions.
- a recombinant DNA molecule that comprises a vector containing a promoter for driving the expression of a chimer in host organism cells operatively linked to a DNA segment that is an analog nucleic acid sequence that encodes an amino acid residue sequence of a HBc chimer portion that is at least 80 percent identical, more preferably 90 percent identical, and most preferably 95 percent identical to the HBc portion of a sequence of SEQ ID NOs : 168, 170, 171, 172, 173 or 174. That recombinant DNA molecule, upon suitable transfection and expression in a host cell, provides a contemplated chimer molecule.
- HBc-encoding bases or HBc sequence residues that are present in a chimer molecule are included and compared to an aligned nucleic acid or amino acid residue sequence in the identity percentage calculations.
- the coding sequences for the gene disclosed herein is illustrated in SEQ ID NOs : 169, 175, 176, 177, 178 and 179
- isolated nucleic acid segments, preferably DNA sequences, variants and analogs thereof can be prepared by in vi tro mutagenesis, as is well known in the art and discussed in Current Protocols In Molecular Biology, Ausabel et al . eds., John Wiley & Sons (New York: 1987) p.
- a desired restriction site can be engineered at or upstream of the initiation codon, and at or downstream of the stop codon so that other genes can be prepared, excised and isolated.
- nucleic acid illustratively DNA sequence
- additional base pairs can usually be present at either end of the segment and that segment can still be utilized to express the protein.
- This presumes the absence in the segment of an operatively linked DNA sequence that represses expression, expresses a further product that consumes the enzyme desired to be expressed, expresses a product that consumes a wanted reaction product produced by that desired enzyme, or otherwise interferes with expression of the gene of the DNA segment .
- a DNA segment of the invention can be about 500 to about 15,000 base pairs in length.
- the maximum size of a recombinant DNA molecule, particularly an expression vector is governed mostly by convenience and the vector size that can be accommodated by a host cell, once all of the minimal DNA sequences required for replication and expression, when desired, are present. Minimal vector sizes are well known. Such long DNA segments are not preferred, but can be used.
- DNA segments that encode the before- described chimer can be synthesized by chemical techniques, for example, the phosphotriester method of Matteucci et al . (1981) J. Am . Chem . Soc , 103:3185.
- any desired modifications can be made simply by substituting the appropriate bases for those encoding the native amino acid residue sequence.
- DNA segments including sequences discussed previously are preferred.
- a contemplated HBc chimer can be produced (expressed) in a number of transformed host systems, typically host cells although expression in acellular, in vi tro, systems is also contemplated.
- host cellular systems include, but are not limited to, microorganisms such as bacteria transformed with recombinant bacteriophage, plasmid, or cosmid DNA expression vectors; yeast transformed with yeast expression vectors; insect cell systems infected with virus expression vectors (e.g. baculovirus) ; plant cell systems transformed with virus expression vectors (e.g. cauliflower mosaic virus; tobacco mosaic virus) or with bacterial expression vectors (e.g., Ti plasmid); or appropriately transformed animal cell systems such as CHO or COS cells.
- the invention is not limited by the host cell employed.
- DNA segments containing a gene encoding the HBc chimer are preferably obtained from recombinant DNA molecules (plasmid vectors) containing that gene.
- Plasmid vectors Vectors capable of directing the expression of a chimer gene into the protein of a HBc chimer is referred to herein as an "expression vector" .
- An expression vector contains expression control elements including the promoter.
- the chimer- coding gene is operatively linked to the expression vector to permit the promoter sequence to direct RNA polymerase binding and expression of the chimer- encoding gene.
- Useful in expressing the polypeptide coding gene are promoters that are inducible, viral, synthetic, constitutive as described by Poszkowski et al. (1989) EMBO J. , 3:2719 and Odell et al . (1985) Nature, 313:810, as well as temporally regulated, spatially regulated, and spatiotemporally regulated as given in Chua et al . (1989) Science, 244:174-181.
- One preferred promoter for use in prokaryotic cells such as E. coli is the Rec 7 promoter that is inducible by exogenously supplied nalidixic acid.
- a more preferred promoter is present in plasmid vector. JHEX25 (available from Promega) that is inducible by exogenously supplied isopropyl- ⁇ -D-thiogalacto-pyranoside (IPTG) .
- IPTG isopropyl- ⁇ -D-thiogalacto-pyranoside
- a still more preferred promoter, the tac promoter is present in plasmid vector pKK223-3 and is also inducible by exogenously supplied IPTG.
- the pKK223-3 plasmid can be successfully expressed in a number of E.
- coli strains such as XL-1, TBl, BL21 and BLR, using about 25 to about 100 ⁇ M IPTG for induction.
- concentrations of about 25 to about 50 ⁇ M IPTG have been found to provide optimal results in 2 L shaker flasks and fermentors .
- Expression vectors compatible with eukaryotic cells are also contemplated herein. Such expression vectors can also be used to form the recombinant DNA molecules of the present invention.
- Vectors for use in yeasts such as S. cerivisiae or Pichia pastoris can be episomal or integrating, as is well known.
- Eukaryotic cell expression vectors are well known in the art and are available from several commercial sources. Normally, such vectors contain one or more convenient restriction sites for insertion of the desired DNA segment and promoter sequences. Optionally, such vectors contain a selectable marker specific for use in eukaryotic cells.
- Exemplary promoters for use in S. cerevisiae include the S .
- PGK cerevisiae phosphoglyceric acid kinase
- AOX1 alcohol oxidase gene
- PGK cerevisiae phosphoglyceric acid kinase
- AOX1 alcohol oxidase gene
- a gene that encodes a desired chimer is placed under the control of regulatory sequences that direct expression of structural genes in Pichia .
- the resultant expression-competent forms of those genes are introduced into Pichia cells.
- the vector also contains appropriate portions of a plasmid such as pBR322 to permit growth of the plasmid in E. coli cells.
- a plasmid such as pBR322
- a contemplated chimer gene can also be introduced by integrative transformation, which does not require the use of an ARS sequence, as described by Cregg et al . (1987) Molecular and Cellular Biology, 12:3376-3385.
- chimer particles by recombinant DNA expression in mammalian cells is illustratively carried out using a recombinant DNA vector capable of expressing the chimer gene in Chinese hamster ovary (CHO) cells. This is accomplished using procedures that are well known in the art and are described in more detail in Sambrook et al . , Molecular Cloning: A Laboratory Manual, 2 nd ed. , Cold Spring Harbor Laboratories (1989) .
- the simian virus (SV40) based expression vector pKSV-10 (Pharmacia Fine Chemicals, Piscataway, NJ) , is subjected to restriction endonuclease digestion by Ncol and Hindlll.
- a Ncol/HindiII sequence fragment that encodes the desired HBc chimer prepared as described in Example 1 is ligated into the expression plasmid, which results in the formation of a circular recombinant expression plasmid denominated pSV-Pf .
- the expression plasmid pSV-Pf contains an intact E. coli ampicillin resistance gene.
- E. coli RR101 Bethesda Research Laboratories, Gaithersburg, MD
- Plasmid- containing bacteria are then cloned and the clones are subsequently screened for the proper orientation of the inserted coding gene into the expression vector.
- the above obtained plasmid, pSV-Pf , containing the gene that encodes a desired HBc chimer is propagated by culturing E. coli containing the plasmid.
- the plasmid DNA is isolated from E. coli cultures as described in Sambrook et al . , above.
- a chimer is accomplished by the introduction of pSV-Pf into the mammalian cell line, e.g., CHO cells, using the calcium phosphate- mediated transfection method of Graham et al . (1973) Virol . , 52:456, or a similar technique.
- pSV-Pf a second plasmid
- pSV2NEO ATCC #37149
- G418 cytotoxic drug G418
- Those CHO cells that are resistant to G418 are cultured, have acquired both plasmids, pSV2NEO and pSV-Pf , and are designated CHO/pSV-Pf cells.
- a chimer is expressed in the resulting CHO/pSV-Pf cells and can be detected in and purified from the cytoplasm of these cells.
- the resulting composition containing cellular protein is separated on a column as discussed elsewhere herein.
- a vector useful in practicing the present invention can direct the replication, and preferably also the expression (for an expression vector) of the chimer gene included in the DNA segment to which it is operatively linked.
- the host that expresses the chimer is the prokaryote, E. coli
- a preferred vector includes a prokaryotic replicon; i.e., a DNA sequence having the ability to direct autonomous replication and maintenance of the recombinant DNA molecule extrachromosomally in a prokaryotic host cell transformed therewith.
- a prokaryotic replicon i.e., a DNA sequence having the ability to direct autonomous replication and maintenance of the recombinant DNA molecule extrachromosomally in a prokaryotic host cell transformed therewith.
- Those vectors that include a prokaryotic replicon can also include a prokaryotic promoter region capable of directing the expression of a contemplated HBc chimer gene in a host cell, such as E. coli , transformed therewith.
- Promoter sequences compatible with bacterial hosts are typically provided in plasmid vectors containing one or more convenient restriction sites for insertion of a contemplated DNA segment .
- Typical of such vector plasmids are pUC8 , pUC9, and pBR329 available from Biorad Laboratories, (Richmond, CA) and pPL and pKK223-3 available from Pharmacia, Piscataway, NJ.
- Typical vectors useful for expression of genes in cells from higher plants and mammals are well known in the art and include plant vectors derived from the tumor-inducing (Ti) plasmid of Agrobacterium tumefaciens described by Rogers et al .
- Plasmid pCaMVCN (available from Pharmacia, Piscataway, NJ) includes the cauliflower mosaic virus CaMV 35S promoter.
- the above plant expression systems typically provide systemic or constitutive expression of an inserted transgene.
- Systemic expression can be useful where most or all of a plant is used as the source to a contemplated chimer molecule or resultant particles or where a large part of the plant is used to provide an oral vaccine. However, it can be more efficacious to express a chimer molecule or particles in a plant storage organ such as a root, seed or fruit from which the particles can be more readily isolated or ingested.
- One manner of achieving storage organ expression is to use a promoter that expresses its controlled gene in one or more preselected or predetermined non-photosynthetic plant organs. Expression in one or more preselected storage organs with little or no expression in other organs such as roots, seed or fruit versus leaves or stems is referred to herein as enhanced or preferential expression.
- An exemplary promoter that directs expression in one or more preselected organs as compared to another organ at a ratio of at least 5:1 is defined herein as an organ-enhanced promoter.
- organ-specific expression i.e., a ratio of expression products in a storage organ relative to another of about 100:1 or greater indicates organ specificity.
- Storage organ-specific promoters are thus members of the class of storage organ-enhanced promoters.
- Exemplary plant storage organs include the roots of carrots, taro or manioc, potato tubers, and the meat of fruit such as red guava, passion fruit, mango, papaya, tomato, avocado, cherry, tangerine, mandarin, palm, melons such cantaloupe and watermelons and other fleshy fruits such as squash, cucumbers, mangos, apricots, peaches, as well as the seeds of maize (corn) , soybeans, rice, oil seed rape and the like.
- the meat of fruit such as red guava, passion fruit, mango, papaya, tomato, avocado, cherry, tangerine, mandarin, palm, melons such cantaloupe and watermelons and other fleshy fruits such as squash, cucumbers, mangos, apricots, peaches, as well as the seeds of maize (corn) , soybeans, rice, oil seed rape and the like.
- the CaMV 35S promoter is normally deemed to be a constitutive promoter.
- a 21-bp region of the CaMV 35S promoter when operatively linked into another, heterologous usual green tissue promoter, the rbcS-3A promoter, can cause the resulting chimeric promoter to become a root-enhanced promoter. That 21-bp sequence is disclosed in U.S. Patent No. 5,023,179.
- the chimeric rbcS-3A promoter containing the 21-bp insert of U.S. Patent No. 5,023,179 is a useful root- enhanced promoter herein.
- a similar root-enhanced promoter, that includes the above 21-bp segment is the -90 to +8 region of the CAMV 35S promoter itself.
- U.S. Patent No. 5,110,732 discloses that that truncated CaMV 35S promoter provides enhanced expression in roots and the radical of seed, a tissue destined to become a root. That promoter is also useful herein.
- Another useful root-enhanced promoter is the -1616 to -1 promoter of the oil seed rape (Brassica napus L. ) gene disclosed in PCT/GB92/00416 (WO 91/13922 published Sep. 19, 1991) .
- E. coli DH5. alpha harboring plasmid pRlambdaS4 and bacteriophage lambda .beta.1 that contain this promoter were deposited at the National Collection of Industrial and Marine Bacteria, Aberdeen, GB on Mar. 8, 1990 and have accession numbers NCIMB40265 and NCIMB40266.
- a useful portion of this promoter can be obtained as a 1.0 kb fragment by cleavage of the plasmid with Haelll.
- a preferred root-enhanced promoter is the mannopine synthase (mas) promoter present in plasmid pKan2 described by DiRita and Gelvin (1987) Mol . Gen . Genet, 207:233-241. This promoter is removable from its plasmid pKan2 as a Xbal-Xball fragment.
- the preferred mannopine synthase root- enhanced promoter is comprised of the core mannopine synthase (mas) promoter region up to position -138 and the mannopine synthase activator from -318 to - 213, and is collectively referred to as A asPmas .
- This promoter has been found to increase production in tobacco roots about 10- to about 100 -fold compared to leaf expression levels.
- Another root specific promoter is the about 500 bp 5' flanking sequence accompanying the hydroxyproline-rich glycopeprotein gene, HRGPnt3, expressed during lateral root initiation and reported by Keller et al . (1989) Genes Dev. , 3:1639-1646.
- Another preferred root-specific promoter is present in the about -636 to -1 5' flanking region of the tobacco root -specific gene ToRBF reported by Yamamoto et al. (1991) Plant Cell , 3:371-381. The cis-acting elements regulating expression are more specifically located by those authors in the region from about -636 to about -299 5' from the transcription initiation site. Yamamoto et al . reported steady state mRNA production from the ToRBF gene in roots, but not in leaves, shoot meristems or stems.
- Still another useful storage organ-specific promoter are the 5 ' and 3 ' flanking regions of the fruit-ripening gene E8 of the tomato, Lycopersicon esculentum. These regions and their cDNA sequences are illustrated and discussed in Deikman et al . (1988) EMBO J. , 7 (11) : 3315-3320 and (1992) Plant Physiol . , 100:2013-2017.
- Three regions are located in the 2181 bp of the 5 ' flanking sequence of the gene and a 522 bp sequence 3 ' to the poly (A) addition site appeared to control expression of the E8 gene.
- One region from -2181 to -1088 is required for activation of E8 gene transcription in unripe fruit by ethylene and also contributes to transcription during ripening.
- Two further regions, -1088 to -863 and -409 to -263, are unable to confer ethylene responsiveness in unripe fruit but are sufficient for E8 gene expression during ripening .
- the maize sucrose synthase-1 (Sh) promoter that in corn expresses its controlled enzyme at high levels in endosperm, at much reduced levels in roots and not in green tissues or pollen has been reported to express a chimeric reporter gene, ⁇ -glucuronidase (GUS) , specifically in tobacco phloem cells that are abundant in stems and roots.
- GUS ⁇ -glucuronidase
- This promoter is thus useful for plant organs such as fleshy fruits like melons, e.g. cantaloupe, or seeds that contain endosperm and for roots that have high levels' of phloem cells.
- tissue-specific promoter is the lectin promoter, which is specific for seed tissue.
- the lectin protein in soybean seeds is encoded by a single gene (Lei) that is only expressed during seed maturation and accounts for about 2 to about 5 percent of total seed mRNA.
- the lectin gene and seed-specific promoter have been fully characterized and used to direct seed specific expression in transgenic tobacco plants. See, e.g., Vodkin et al . (1983) Cell , 34:1023 and Lindstrom et al . (1990) Developmental Genetics, 11:160.
- a particularly preferred tuber-specific expression promoter is the 5 ' flanking region of the potato patatin gene. Use of this promoter is described in Twell et al . (1987) Plant Mol . Biol . , 9:365-375. This promoter is present in an about 406 bp fragment of bacteriophage LPOTI .
- the LPOTI promoter has regions of over 90 percent homology with four other patatin promoters and about 95 percent homology over all 400 bases with patatin promoter PGT5. Each of these promoters is useful herein. See, also, Wenzler et al . (1989) Plant Mol . Biol . , 12:41- 50.
- each of the promoter sequences utilized is substantially unaffected by the amount of chimer molecule or particles in the cell.
- substantially unaffected means that the promoter is not responsive to direct feedback control (inhibition) by the chimer molecules or particles accumulated in transformed cells or transgenic plant.
- Transfection of plant cells using Agrobacterium tumefaciens is typically best carried out on dicotyledonous plants. Monocots are usually most readily transformed by so-called direct gene transfer of protoplasts. Direct gene transfer is usually carried out by electroportation, by polyethyleneglycol-mediated transfer or bombardment of cells by microprojectiles carrying the needed DNA. These methods of transfection are well-known in the art and need not be further discussed herein. Methods of regenerating whole plants from fransfected cells and protoplasts are also well-known, as are techniques for obtaining a desired protein from plant tissues. See, also, U.S. Patents No. 5,618,988 and 5,679,880 and the citations therein.
- a transgenic plant formed using AgroJbacterium transformation, electroportation or other methods typically contains a single gene on one chromosome. Such transgenic plants can be referred to as being heterozygous for the added gene. However, inasmuch as use of the word "heterozygous" usually implies the presence of a complementary gene at the same locus of the second chromosome of a pair of chromosomes, and there is no such gene in a plant containing one added gene as here, it is believed that a more accurate name for such a plant is an independent segregant, because the added, exogenous chimer molecule-encoding gene segregates independently during mitosis and meiosis.
- a transgenic plant containing an organ-enhanced promoter driving a single structural gene that encodes a contemplated HBc chimeric molecule; i.e., an independent segregant is a preferred transgenic plant .
- transgenic plant that is homozygous for the added structural gene; i.e., a transgenic plant that contains two added genes, one gene at the same locus on each chromosome of a chromosome pair.
- a homozygous transgenic plant can be obtained by sexually mating (selfing) an independent segregant transgenic plant that contains a single added gene, germinating some of the seed produced and analyzing the resulting plants produced for enhanced chimer particle accumulation relative to a control (native, non-transgenic) or an independent segregant transgenic plant .
- a homozygous transgenic plant exhibits enhanced chimer particle accumulation as compared to both a native, non-transgenic plant and an independent segregant transgenic plant.
- transgenic plants can also be mated to produce offspring that contain two independently segregating added, exogenous (heterologous) genes. Selfing of appropriate progeny can produce plants that are homozygous for both added, exogenous genes that encode a chimeric HBc molecule. Back-crossing to a parental plant and out -crossing with a non-transgenic plant are also contemplated.
- a transgenic plant of this invention thus has a heterologous structural gene that encodes a contemplated chimeric HBc molecule.
- a preferred transgenic plant is an independent segregant for the added heterologous chimeric HBc structural gene and can transmit that gene to its progeny.
- a more preferred transgenic plant is homozygous for the heterologous gene, and transmits that gene to all of its offspring on sexual mating.
- a contemplated transgenic plant accumulates chimeric HBc molecule particles in a greater amount than does a non-transformed plant of the same type or strain when both plants are grown under the same conditions.
- alleic type or “same strain” is used herein to mean a plant of the same cross as or a clone of the untransformed plant . Where alleic variations among siblings of a cross are small, as with extensively inbred plant, comparisons between siblings can be used or an average arrived at using several siblings. Otherwise, clones are preferred for the comparison.
- Seed from a transgenic plant is grown in the field greenhouse, window sill or the like, and resulting sexually mature transgenic plants are self- pollinated to generate true breeding plants.
- the progeny from these plants become true breeding lines that are evaluated for chimeric HBc molecule particle accumulation, preferably in the field, under a range of environmental conditions .
- a transgenic plant homozygous for chimeric HBc molecule particle accumulation is crossed with a parent plant having other desired traits.
- the progeny which are heterozygous or independently segregatable for chimeric HBc molecule particle accumulation, are backcrossed with one or the other parent to obtain transgenic plants that exhibit chimeric HBc molecule particle accumulation and the other desired traits.
- the backcrossing of progeny with the parent may have to be repeated more than once to obtain a transgenic plant that possesses a number of desirable traits.
- An insect cell system can also be used to express a HBc chimer.
- Autographa califomica nuclear polyhedrosis virus (AcNPV) or baculovirus is used as a vector to express foreign genes in Spodoptera frugiperda cells or in Trichoplusia larvae.
- the sequences encoding a chimer can be cloned into a non-essential region of the virus, such as the polyhedrin gene, and placed under control of the polyhedrin promoter. Successful insertion of chimer sequence renders the polyhedrin gene inactive and produces recombinant virus lacking coat protein.
- the recombinant viruses can then be used to infect, for example, S. Frugiperda cells or Trichoplusia larvae in which the HBc chimer can be expressed. E. Engelhard et al . (1994) Proc . Natl . Acad . Sci . , USA, 91:3224-3227; and V. Luckow, Insect Cell Expression Technology, pp.
- Recombinant baculoviruses containing the chimeric gene are constructed using the baculovirus shuttle vector system (Luckow et al . (1993) J. Virol . , 67:4566-4579], sold commercially as the baculovirus shuttle vector system (Luckow et al . (1993) J. Virol . , 67:4566-4579], sold commercially as the baculovirus shuttle vector system (Luckow et al . (1993) J. Virol . , 67:4566-4579], sold commercially as the
- Bac-To-BacTM baculovirus expression system (Life Technologies) . Stocks of recombinant viruses are prepared and expression of the recombinant protein is monitored by standard protocols (O'Reilly et al . , Baculovirus Expression Vectors: A Laboratory Manual, W.H. Freeman and Company, New York, 1992; and King et al . , The Baculovirus Expression System: A Laboratory Guide, Chapman & Hall, London, 1992) .
- a variety of methods have been developed to operatively link DNA to vectors via complementary cohesive termini or blunt ends. For instance, complementary homopolymer tracts can be added to the DNA segment to be inserted into the vector DNA. The vector and DNA segment are then joined by hydrogen bonding between the complementary homopolymeric tails to form recombinant DNA molecules.
- synthetic linkers containing one or more restriction endonuclease sites can be used to join the DNA segment to the expression vector, as noted before.
- the synthetic linkers are attached to blunt-ended DNA segments by incubating the blunt-ended DNA segments with a large excess of synthetic linker molecules in the presence of an enzyme that is able to catalyze the ligation of blunt-ended DNA molecules, such as bacteriophage T4 DNA ligase.
- the products of the reaction are DNA segments carrying synthetic linker sequences at their ends . These DNA segments are then cleaved with the appropriate restriction endonuclease and ligated into an expression vector that has been cleaved with an enzyme that produces termini compatible with those of the synthetic linker. Synthetic linkers containing a variety of restriction endonuclease sites are commercially available from a number of sources including New England BioLabs, Beverly, MA. A desired DNA segment can also be obtained using PCR technology in which the forward and reverse primers contain desired restriction sites that can be cut after amplification so that the gene can be inserted into the vector.
- PCR products can be directly cloned into vectors containing T-overhangs (Promega Corp., A3600, Madison, WI) as is well known in the art .
- the expressed chimeric protein self- assembles into particles within the host cells, whether in single cells or in cells within a multicelled host.
- the particle-containing cells are harvested using standard procedures, and the cells are lysed using a French pressure cell, lysozyme, sonicator, bead beater or a microfluidizer (Microfluidics International Corp., Newton MA).
- particles are precipitated with 45% ammonium sulfate, resuspended in 20 mM sodium phosphate, pH 6.8 and dialyzed against the same buffer.
- the dialyzed material is clarified by brief centrifugation and the supernatant subjected to gel filtration chromatography using Sepharose ® CL-4B.
- Particle-containing fractions are identified, subjected to hydroxyapatite chromatography, and reprecipitated with ammonium sulfate prior to resuspension, dialysis and sterile filtration and storage at -70°C.
- a before-described recombinant HBc chimer immunogen preferably in particulate form is dissolved or dispersed in an immunogenic effective amount in a pharmaceutically acceptable vehicle composition that is preferably aqueous to form an inoculum or vaccine .
- a pharmaceutically acceptable vehicle composition that is preferably aqueous to form an inoculum or vaccine .
- an inoculum induces antibodies that immunoreact with the malarial B cell epitope present in the immunogen.
- those induced antibodies also immunoreact in vivo with (bind to) the sporozoite and protect the mammal from malarial infection by the Plasmodium species whose B cell epitope was present in the immunogen.
- a composition that is an inoculum in one animal can be a vaccine for another where the Plasmodium species against which antibodies are raised does not infect the animal inoculated, as where an inoculum against P. falciparum is used to raise antibodies in mice.
- the amount of recombinant HBc chimer immunogen utilized in each immunization is referred to as an immunogenic effective amount and can vary widely, depending inter alia, upon the recombinant HBc chimer immunogen, mammal immunized, and the presence of an adjuvant in the vaccine, as discussed below.
- Immunogenic effective amounts for a vaccine and an inoculum provide the protection or antibody activity, respectively, discussed hereinbefore.
- Vaccines or inocula typically contain a recombinant HBc chimer immunogen concentration of about 1 microgram to about 1 milligram per inoculation (unit dose) , and preferably about 10 micrograms to about 50 micrograms per unit dose. Immunizations in mice typically contain 10 or 20 ⁇ g of chimer particles.
- unit dose refers to a physically discrete unit suitable as an unitary dosage for animals, each unit containing a predetermined quantity of active material calculated to individually or collectively produce the desired immunogenic effect in association with the required diluent; i.e., carrier, or vehicle.
- a single unit dose or a plurality of unit doses can be used to provide an immunogenic effective amount of recombinant HBc chimer immunogen .
- Vaccines or inocula are typically prepared from a recovered recombinant HBc chimer immunogen by dispersing the immunogen in a physiologically tolerable (acceptable) diluent vehicle such as water, saline phosphate-buffered saline (PBS) , acetate- buffered saline (ABS), Ringer's solution or the like to form an aqueous composition.
- a physiologically tolerable (acceptable) diluent vehicle such as water, saline phosphate-buffered saline (PBS) , acetate- buffered saline (ABS), Ringer's solution or the like to form an aqueous composition.
- PBS saline phosphate-buffered saline
- ABS acetate- buffered saline
- Ringer's solution or the like to form an aqueous composition.
- the diluent vehicle can also include ole
- the immunogenic active ingredient is often mixed with excipients that are pharmaceutically acceptable and compatible with the active ingredient.
- excipients are, for example, water, saline, dextrose, glycerol, ethanol, or the like and combinations thereof.
- an inoculum or vaccine can contain minor amounts of auxiliary substances such as wetting or emulsifying agents, pH buffering agents that enhance the immunogenic effectiveness of the composition.
- a contemplated vaccine or inoculum advantageously also includes an adjuvant.
- Suitable adjuvants for vaccines and inocula of the present invention comprise those adjuvants that are capable of enhancing the antibody responses against B cell epitopes of the chimer, as well as adjuvants capable of enhancing cell mediated responses towards T cell epitopes contained in the chimer.
- Adjuvants are well known in the art (see, for example, Vaccine Design - The Subunit and Adjuvant Approach, 1995, Pharmaceutical Biotechnology, Volume 6, Eds. Powell, M.F., and Newman, M.J., Plenum Press, New York and London, ISBN 0-306-44867-X) .
- Exemplary adjuvants include complete Freund's adjuvant (CFA) that is not used in humans, incomplete Freund's adjuvant (IFA) , squalene, squalane and alum [e.g., AlhydrogelTM (Superfos, Denmark)], which are materials well known in the art, and are available commercially from several sources.
- CFA complete Freund's adjuvant
- IFA incomplete Freund's adjuvant
- squalene squalene
- squalane e.g., AlhydrogelTM (Superfos, Denmark)
- alum e.g., AlhydrogelTM (Superfos, Denmark)
- Preferred adjuvants for use with immunogens of the present invention include aluminum or calcium salts (for example hydroxide or phosphate salts) .
- a particularly preferred adjuvant for use herein is an aluminum hydroxide gel such as AlhydrogelTM.
- AlhydrogelTM aluminum hydroxide gels
- the chimer protein is admixed with the adjuvant so that between 50 to 800 micrograms of aluminum are present per dose, and preferably between 400 and 600 micrograms are present .
- a particularly preferred adjuvant for use with an immunogen of the present invention is an emulsion.
- a contemplated emulsion can be an oil-in- water emulsion or a water-in-oil emulsions.
- such emulsions comprise an oil phase of squalene, squalane, peanut oil or the like as are well-known, and a dispersing agent.
- Non-ionic dispersing agents are preferred and such materials include mono- and di-Ci2 ⁇ C 2 4-fatty acid esters of sorbitan and mannide such as sorbitan mono-stearate, sorbitan mono-oleate and mannide mono-oleate.
- An immunogen-containing emulsion is administered as an emulsion.
- such emulsions are water-in-oil emulsions that comprise squalene and mannide mono- oleate (ArlacelTM A) , optionally with squalane, emulsified with the chimer protein in an aqueous phase.
- squalene and mannide mono- oleate AllacelTM A
- squalane emulsified with the chimer protein in an aqueous phase.
- Well-known examples of such emulsions include MontanideTM ISA-720, and MontanideTM ISA 703 (Seppic, Castres, France) , each of which is understood to contain both squalene and squalane, with squalene predominating in each, but to a lesser extent in MontanideTM ISA 703.
- MontanideTM ISA- 720 is used, and a ratio of oil-to-water of 7:3 (w/w) is used.
- Other preferred oil-in-water emulsion adjuvants include those disclosed in WO 95/17210 and EP 0 399 843.
- small molecule adjuvants are also contemplated herein.
- One type of small molecule adjuvant useful herein is a 7-substituted-8-oxo- or 8-sulfo-guanosine derivative described in U.S. Patents No. 4,539,205, No. 4,643,992, No. 5,011,828 and No. 5,093,318, whose disclosures are incorporated by reference.
- 7-allyl-8- oxoguanosine (loxoribine) is particularly preferred. That molecule has been shown to be particularly effective in inducing an antigen- (immunogen-) specific response .
- Still further useful adjuvants include monophosphoryl lipid A (MPL) available from Corixa Corp. (see, U.S. Patent No. 4,987,237), CPG available from Coley Pharmaceutical Group, QS21 available from Aquila Biopharmaceuticals, Inc., SBAS2 available from SKB, the so-called muramyl dipeptide analogues described in U.S. Patent No. 4,767,842, and MF59 available from Chiron Corp. (see, U.S. Patents No. 5,709,879 and No. 6,086,901).
- MPL monophosphoryl lipid A
- CPG available from Coley Pharmaceutical Group
- QS21 available from Aquila Biopharmaceuticals, Inc.
- SBAS2 available from SKB
- MF59 available from Chiron Corp.
- immunologically active saponin fractions having adjuvant activity derived from the bark of the South American tree Quillaja Saponaria Molina are also useful.
- Derivatives of QuilTM A for example QS21 (an HPLC purified fraction derivative of QuilTM A) , and the method of its production is disclosed in U.S. Patent No.5, 057, 540.
- QS21 known as QA21
- other fractions such as QA17 are also disclosed.
- 3-De-O-acylated monophosphoryl lipid A is a well-known adjuvant manufactured by Ribi Immunochem, Hamilton, Montana.
- the adjuvant contains three components extracted from bacteria, monophosphoryl lipid (MPL) A, trehalose dimycolate (TDM) and cell wall skeleton (CWS) (MPL+TDM+CWS) in a 2% squalene/Tween ® 80 emulsion.
- This adjuvant can be prepared by the methods taught in GB 2122204B.
- a preferred form of 3-de-O-acylated monophosphoryl lipid A is in the form of an emulsion having a small particle size less than 0.2 ⁇ m in diameter (EP 0 689 454 Bl) .
- the muramyl dipeptide adjuvants include N- acetyl-muramyl-L-threonyl-D-isoglutamine (thur-MDP) , N-acetyl-nor-muramyl-L-alanyl-D-isoglutamine (CGP 11637, referred to as nor-MDP) , and N-acetylmuramyl- L-alanyl-D-isoglutaminyl-L-alanine-2 - (1 ' -2 ' - dipalmityol-sn-glycero-3-hydroxyphosphoryloxy) - ethylamin (CGP) 1983A, referred to as MTP-PE) .
- thur-MDP N-acetyl-muramyl-L-threonyl-D-isoglutamine
- CGP 11637 N-acetyl-nor-muramyl-L-alanyl-D-is
- Preferred adjuvant mixtures include combinations of 3D-MPL and QS21 (EP 0 671 948 Bl) , oil-in-water emulsions comprising 3D-MPL and QS21 (WO 95/17210, PCT/EP98/05714) , 3D-MPL formulated with other carriers (EP 0 689 454 Bl) , QS21 formulated in cholesterol -containing liposomes (WO 96/33739) , or immunostimulatory oligonucleotides (WO 96/02555) .
- Alternative adjuvants include those described in WO 99/52549 and non-particulate suspensions of polyoxyethylene ether (UK Patent Application No. 9807805.8) .
- Adjuvants are utilized in an adjuvant amount, which can vary with the adjuvant, mammal and recombinant HBc chimer immunogen. Typical amounts can vary from about 1 ⁇ g to about 1 mg per immunization. Those skilled in the art know that appropriate concentrations or amounts can be readily determined.
- Inocula and vaccines are conventionally administered parenterally, by injection, for example, either subcutaneously or intramuscularly.
- Additional formulations that are suitable for other modes of administration include suppositories and, in some cases, oral formulation or by nasal spray.
- suppositories traditional binders and carriers can include, for example, polyalkalene glycols or triglycerides; such suppositories may be formed from mixtures containing the active ingredient in the range of 0.5% to 10%, preferably 1-2%.
- Oral formulations include such normally employed excipients as, for example, pharmaceutical grades of mannitol, lactose, starch, magnesium stearate, sodium saccharine, cellulose, magnesium carbonate and the like .
- An inoculum or vaccine composition takes the form of a solution, suspension, tablet, pill, capsule, sustained release formulation or powder, and contains an immunogenic effective amount of HBc chimer, preferably as particles, as active ingredient.
- an immunogenic effective amount of preferred HBc chimer particles is about 1 ⁇ g to about 1 mg of active ingredient per dose, and more preferably about 5 ⁇ g to about 50 ⁇ g per dose, as noted before.
- a vaccine or inoculum is typically formulated for parenteral administration.
- exemplary immunizations are carried out sub-cutaneously (SC) intra-muscularly (IM) , intravenusly (IV) , intraperitoneally (IP) or intra-dermally (ID) .
- HBc chimer particles and HBc chimer particle conjugates can be formulated into the vaccine as neutral or salt forms.
- Pharmaceutically acceptable salts include the acid addition salts (formed with the free amino groups of the protein or hapten) and are formed with inorganic acids such as, for example, hydrochloric or phosphoric acids, or such organic acids as acetic, oxalic, tartaric, mandelic, and the like.
- Salts formed with the free carboxyl groups can also be derived form inorganic bases such as, for example, sodium, potassium, ammonium / calcium, or ferric hydroxides, and such organic bases as isopropylamine, trimethylamine, 2- ethylamino ethanol, histidine, procaine, and the like .
- inorganic bases such as, for example, sodium, potassium, ammonium / calcium, or ferric hydroxides
- organic bases as isopropylamine, trimethylamine, 2- ethylamino ethanol, histidine, procaine, and the like .
- the inocula or vaccines are administered in a manner compatible with the dosage formulation, and in such amount as are therapeutically effective and immunogenic.
- the quantity to be administered depends on the subject to be treated, capacity of the subject's immune system to synthesize antibodies, and degree of protection desired. Precise amounts of active ingredient required to be administered depend on the judgment of the practitioner and are peculiar to each individual. However, suitable dosage ranges are of the order of several hundred micrograms active ingredient per individual . Suitable regimes for initial administration and booster shots are also variable, but are typified by an initial administration followed in intervals (weeks or months) by a subsequent injection or other administration.
- the mammal is maintained for a period of time sufficient for the recombinant HBc chimer immunogen to induce the production of a sufficient titer of antibodies that bind to sporozoite.
- the maintenance time for the production of anti-sporozoite antibodies typically lasts for a period of about three to about twelve weeks, and can include a booster, second immunizing administration of the vaccine.
- a third immunization is also contemplated, if desired, at a time 24 weeks to five years after the first immunization.
- vaccinated mammal is preferably maintained at or near that antibody titer by periodic booster immunizations administered at intervals of about 1 to about 5 years .
- anti-sporozoite antibodies is readily ascertained by obtaining a plasma or serum sample from the immunized mammal and assaying the antibodies therein for their ability to bind to a synthetic circumsporozoite immunodominant antigen [e.g. the P . falciparum CS protein peptide (NANP) 5 used herein] in an ELISA assay as described hereinafter or by another immunoassay such as a Western blot as is well known in the art. Most preferable is the use of the indirect immunofluorescence assay (IFA) , in which intact sporozoites are employed as the capture antigen, discussed hereinafter.
- IFA indirect immunofluorescence assay
- anti-described anti- CS antibodies so induced can be isolated from the blood of the host mammal using well known techniques, and then reconstituted into a second vaccine for passive immunization as is also well known. Similar techniques are used for gamma-globulin immunizations of humans.
- antiserum from one or a number of immunized hosts can be precipitated in aqueous ammonium sulfate (typically at 40-50 percent of saturation) , and the precipitated antibodies purified chromatographically as by use of affinity chromatography in which (NANP) 5 is utilized as the antigen immobilized on the chromatographic column.
- Inocula are preparations that are substantially identical to vaccines, but are used in a host mammal in which antibodies to malaria are desired to be induced, but in which protection from malaria is not desired.
- a vaccine against P. falciparum of P. vivax can be used in mice as an inoculum to induce antibody production and not be a vaccine because neither malarial species can infect mice.
- a similar inoculum can be used in a horse or sheep to induce antibody production against either or both malarial species for use in a passive immunization in yet another animal such as humans .
- Plasmid vector pKK223-3 (Pharmacia) was modified by the establishment of a unique Ncol restriction site to enable insertion of HBc genes as Ncol-Hindlll restriction fragments and subsequent expression in E. coli host cells.
- pKK223-3 plasmid vector a new Sphl-Hindlll fragment was prepared using the PCR primers pKK223-3/433-452-F and pKK223-NcoI-mod-R, and pKK223-3 as the template.
- telomere sequence upstream of the introduced Ncol site (see Fig. 1 in which the dashes indicate the absent bases) .
- the final plasmid, pKK223-3N has a size of 4573 bp. Restriction sites in plasmid pKK223-3N are indicated in Fig. 1, and the nucleotide changes made to pKK223-3 to form plasmid pKK223-3N are indicated by an underline as shown below.
- HBcl49 genes able to accept the directional insertion of synthetic dsDNA fragments into the immunodominant loop region, were constructed using PCR.
- VI The plasmid accepting inserts between amino acids E77 and D78 was named VI, whereas the plasmid accepting inserts between D78 and P79 was named V2.
- the HBcl49 gene was amplified in two halves using two PCR primer pairs, one of which amplifies the amino terminus, the other amplifies the carboxyl terminus.
- the products of the PCR reactions are both 246 bp fragments; for V2 , the products are a 249 bp (N- terminus) and a 243 bp fragment (C-terminus) .
- N-terminal fragments prepared were digested with Ncol and EcoRI, and the C-terminal fragments were digested with EcoRI and Hindlll.
- the VI and V2 fragments pairs were then ligated together at the common EcoRI overhangs.
- the resultant Ncol- Hindlll fragments were then ligated into the pKK223- 3N vector, which had been prepared by digestion with Ncol and Hindlll.
- the plasmids were digested with EcoRI and Sad restriction enzymes. Synthetic dsDNA fragments containing 5 ' EcoRI and 3 ' Sad overhangs were then inserted.
- VI and V2 glycine-isoleucine (EcoRI) and glutamic acid-leucine (Sad) amino acid pairs, coded for by the restriction sites, flank the inserted B cell epitopes.
- the inserted restriction sites are underlined in the primers below.
- V7 V7 Cloning Vector
- Unique EcoRI and Sad restriction sites were inserted between valine-149 and the Hindlll site to facilitate directional insertion of synthetic dsDNAs into EcoRI-Hindlll (or EcoRI-Sad) restriction sites .
- the pair of PCR primers below was used to amplify the HBc 149 gene with a Ncol restriction site at the amino-terminus and EcoRI, Sad and Hindlll sites at the carboxyl-terminus .
- the product of the PCR reaction (479 bp) was digested with Ncol/HindiII and cloned into pKK223-3N to form V7.
- V7 The plasmid (V7) was digested EcoRI/Hindlll (or EcoRI -Sad) and synthetic dsDNA fragments having EcoRI/Hindlll (or EcoRI/SacI) overhangs, were ligated into V7.
- V7 constructs the final amino acid of native HBc (valine-149) and the first amino acid of the inserted T cell epitope are separated by a glycine-isoleucine dipeptide sequence coded for by the nucleotides that form the EcoRI restriction site.
- V12 vectors which contain B cell epitopes between amino acids 78 and 79, as well as T cell epitopes downstream of valine-149, were constructed from V2 and V7 vectors .
- the carboxyl terminus of a V7 vector containing a T cell epitope inserted at EcoRI/Hindlll was amplified using two PCR primers (HBc-P79/SacI-F and pKK223-2/4515-32R) to provide a dsDNA fragment corresponding to amino acids 79-149 plus the T cell epitope, flanked with Sad and Hindlll restriction sites.
- the PCR products were cut with Sad and Hindlll and then cloned into the desired V2 vector prepared by cutting with the same two enzymes.
- the PCR primers shown are amenable for the amplification of the carboxyl terminus of all V7 genes, irrespective of the T cell epitope present after amino acid 149 of the HBc gene.
- V12 constructs containing the Pf-CS (C17A) mutation were prepared from existing V12 constructs.
- V12 constructs were amplified with HBcl49/NcoI-F (SEQ ID NO: 29) and the mis-match reverse PCR primer (SEQ ID NO: 104), which facilitated the C17A mutation.
- the resultant PCR product was digested with Ncol and Hindlll and cloned back into pKK223-3N (previously cut with the same enzymes) . Restriction sites are underlined.
- V2 and V7 constructs synthetic dsDNA fragments coding for the B (V2) or T cell epitope (V7) of interest were inserted into EcoRI/SacI restriction sites.
- Synthetic dsDNA fragments, encoding B and T cell epitopes of interest were prepared by mixing complementary single stranded DNA oligonucleotides at equimolar concentrations, heating to 95°C for 5 minutes, and then cooling to room temperature at a rate of -1 °C per minute. This annealing reaction was performed in TE buffer.
- the double-stranded DNAs are shown below with the encoded epitope sequence shown above.
- the pound symbol, # is used in some of the amino acid residue sequences that follow to indicate the presence of a stop codon.
- Example 2 P. vivax universal T cell epitope
- PCR reactions were performed using HBcl 9 as template with the HBc/NcoI-F primer and a reverse primer (e.g. HBcl49+C/HindIII-R) that directed the desired modification of the C-terminus.
- PCR products were digested with Ncol and Hindlll (whose restriction sites are underlined) , and cloned into pKK223-3N at the same restriction sites.
- Purified particles were diluted to a concentration of 10 ⁇ g/mL in coating buffer (50 mM sodium bicarbonate, pH 9.6) and coated onto the wells of ELISA strips (50 ⁇ L/well) .
- the ELISA strips were incubated at room temperature overnight (about 18 hours) .
- the wells were washed with ELISA wash buffer [phosphate buffered saline (PBS) , pH 7.4, 0.05% Tween ® -20] and blocked with 3% BSA in PBS for 1 hour (75 ⁇ L/well) .
- ELISA strips were stored, dry, at -20°C until needed.
- a 20 amino acid residue synthetic peptide (NANP) 5 was diluted to a concentration of 2 ⁇ g/mL in coating buffer (50 mM sodium bicarbonate, pH 9.6) and coated onto the wells of ELISA strips (50 ⁇ L/well) . Peptides were dried onto the wells by incubating overnight (about 18 hours) , in a hood with the exhaust on. Next morning, the wells were washed with ELISA wash buffer (phosphate buffered saline, pH 7.4, 0.05% Tween ® -20) and blocked with 3% BSA in PBS (75 ⁇ L/well) for 1 hour. ELISA strips were stored, dry, at -20°C until needed.
- coating buffer 50 mM sodium bicarbonate, pH 9.6
- Peptides were dried onto the wells by incubating overnight (about 18 hours) , in a hood with the exhaust on. Next morning, the wells were washed with ELISA wash buffer (phosphate buffered saline, pH
- antisera monoclonal or polyclonal
- Sera were incubated for 1 hour, washed with ELISA wash buffer, and probed using an anti-mouse (IgG) -HRP conjugate or other antibody (as above at 50 ⁇ L/well) for 30 minutes, washed again with ELISA wash buffer, and then visualized by the addition of TM blue substrate (50 ⁇ L/well) . After 10 minutes, the reaction was stopped by the addition of IN H 2 S0 4 (100 ⁇ L/well) and read on an ELISA plate reader set at 450 nm.
- IgG anti-mouse
- TM blue substrate 50 ⁇ L/well
- mice were immunized, IP, with 20 ⁇ g of particles in Freund's complete adjuvant, and then boosted at 4 weeks with 10 ⁇ g in Freund's incomplete adjuvant. Mice were bled at 2, 4, 6, and 8 weeks.
- IFA Indirect immunofluorescence assay (IFA) was carried out using glutaraldehyde-fixed P. falciparum sporozoites and FITC-labeled anti-mouse IgG (gamma- chain specific) (Kirkegaard and Perry, Gaithersburg, MD) to detect bound antibody [Munesinghe et al . , Eur . J . Immunol . 1991, 21, 3015-3020] . Sporozoites used were dissected from the salivary glands of Anopheles mosquitoes infected by feeding on P. falciparum (NF54 isolate) gametocytes derived from in vi tro cultures.
- P. falciparum NF54 isolate
- Antibody titers (l/reciprocal dilution) were measured for mice immunized with HBc particles containing the P. f-CS B cell epitope (NANP) 4 inserted either between amino acids E77/D78 or D78/P79, or by using a loop replacement approach (CS- 2) [discussed in Schodel et al . , (1994) J " . Exp . Med . , 180:1037-1046, using complete Freund's adjuvant] .
- Mice were immunized with a single 20 ⁇ g dose, IP, with adjuvant as noted before, and antibody titers determined in an ELISA using immobilized (NANP) 5 synthetic peptide. The results of those studies are shown in Table 1, below. Table 1
- HBc chimer particles ELISA, FI mice
- NANPNVDP SEQ ID NO: 1266
- SEQ ID NO: 185 A HBc chimer was expressed that contained the sequence NANPNVDP (NANP) 3 NVDP (SEQ ID NO : 2 ; V12.Pf3) inserted between HBc positions 78 and 79.
- the resulting ELISA data were compared to titers obtained using the tetrameric repeat (NANP) 4 B cell epitope (V12.Pfl) or the dimer of the minor B cell epitope at the same position (V12.Pf7) .
- Each of these three chimers contained a Domain IV that included the HBc sequence from position 141 through 149, bonded to the P. falciparum universal T cell epitope as the C-terminal sequence.
- Table 4 The results of these studies using primary and booster immunizations as discussed before and using adjuvants, are shown below in Table 4.
- MoAb 2F2 were provided by E. Nardin of New York University Medical Center] . The data were normalized such that the lowest titer is expressed as 1. For example, V12.Pf3 was 165 fold more antigenic than V12.Pf3.10 for the (NANP) 4 -specific monoclonal, and
- Protein samples were diluted to a concentration of between 0.1 and 0.3 mg/mL using phosphate buffered saline (PBS), pH 7.4.
- PBS phosphate buffered saline
- the specfrophotometer was blanked, using PBS, and the absorbance of the protein sample measured at wavelengths of 260 nm and 280 nm.
- the absorbance value determined for a sample at 280 nm was then divided by the absorbance value determined for the same sample at 260 nm to achieve the 280:260 absorbance ratio for a given sample.
- the ratios obtained for several samples, including native particles (HBc 183) , HBc particles truncated after residue position 149 (HBc 149) , and several HBc chimers that are identified elsewhere herein, are shown below in Table 8.
- genes expressing hybrid HBc particles can be easily mutated to introduce a cysteine or cysteine- containing peptide to the C-terminus of HBc.
- a PCR oligonucleotide primer such as that of SEQ ID NO: 148 can be used, in concert with a suitable second primer, to amplify a hybrid HBc gene and incorporate a cysteine codon between codon V149 and the stop codon.
- Hepatitis B core particles can be truncated from residue position 183 (or 185, depending on viral subtype) to 140 and retain the ability to assemble into particulate virus-like particles.
- Many groups have used particles truncated to amino acid 149 because amino acid 150 represents the first arginine residue of the arginine-rich C-terminal domain.
- a codon for a cysteine residue was inserted using techniques described before between the codon for HBc amino acid residue V149 and the termination codon of a chimer HBc molecule that contained the (NANP) 4 malarial B cell epitope inserted between residues 78 and 79 (referred to herein as V2.Pfl) to form the chimeric molecule and particle referred to as V2.Pfl+C.
- the thermal stability (at 37°C) of this chimer particle (V2.Pfl+C) was found to be dramatically increased, as is seen in Fig. 3.
- vectors and expression products that are prepared by addition of a cysteine to the C-terminus of a V2 construct are sometimes referred to herein as V16 vectors or expression products .
- the particles to be analyzed were diluted to a concentration of 1 mg/mL using 50 mM NaP ⁇ 4, pH
- Purified particles were assayed for the percentage of particles and then incubated in aqueous solution at 37°C as discussed before.
- the compositions were assayed for stability after fourteen days of incubation. The results of this analysis are shown in Table 9B, below.
- Fig. 7 shows the results of a SDS-PAGE analysis of the particles of Table 9B at days zero, 7 and 14 following incubation at 37°C. Results of a densitometric analysis of that SDS-PAGE analysis are shown in Table 9C, below. Table 9C
- the data from this study are interpreted to mean that the C-terminal cysteine-stabilized particles are more stable immediately on production, as well as after incubation at 37°C for various time periods.
- the stabilized particles also exhibit enhanced immunogenicity, even in the absence of adjuvant.
- particulate matter is present in the non-stabilized material such as V12. Pf1 (C17A)
- the material present does not induce antibodies toward the initially introduced heterologous B cell epitope sequence, here a malarial immunogen.
- a peptide corresponding to a 20-residue universal T cell epitope derived from the CS protein of the malarial parasite Plasmodium falciparum, which contains a cysteine at position 17 of the peptide or 342 of the CS protein, [Calvo-Calle et al . , J " . Immunol . , (1997) 159(3) :p. 1362-1373], was fused to the C-terminus of a HBc chimer (V2.Pfl) . This chimer contains the HBc sequence from position 1 through
- NANP P. falciparum B cell epitope
- Domain I of this HBc construct thus contained residues 1-75; Domain II contained residues 76-85 with the (NANP) 4 epitope inserted between residues 78 and 79 (along with four residues comprising the restriction sites) ; Domain III contained residues 86- 135; and Domain IV contained residues 136-149 plus the 20 -residue P. falciparum T cell epitope and two residues from the EcoRI cloning site (GI) .
- This fused C-terminal peptide is 20 amino acid residues long (12 or 14 amino acids shorter than the wild type sequence, depending on virus subtype) and has a predicted pi value more than 8 pH units lower than the wild type sequence.
- a (similar) control construct was made, having an alanine instead of a cysteine at position 17 (see Table 10, below) .
- the peptides were fused to the C-terminus of a particle previously shown to degrade readily at 37°C (V2.Pfl) to form the HBc chimers denominated V2. Pf1+Pf/CS-UTC and V2.Pfl+Pf/CS(326-345/C342A) , respectively.
- the results of a thermal stability study over a 28 day time period are shown in Fig. 4.
- the results of this study showed that the presence of the cysteine in the T cell epitope derived from the CS protein of P. falciparum was needed for particle stability in the time period studied, and that there was no absolute requirement that that cysteine be at the C-terminus of the epitope.
- the table below shows the amino acid sequences of C-terminal fusions with a cysteine or alanine at position 17, relative to the native sequence, which occurs in the wild type HBc protein.
- PAGDRADGQPAGDRAAGQPAG P. vivax-type 1A--SEQ ID NO: 159. This form of the epitope failed to make a particle.
- DRAAGQPAGDRADGQPAG P. vivax-type IB-- SEQ ID NO: 150.
- An immunogen for P. vivax-type I has been successfully cloned, expressed, purified, and its immunogenicity tested in mice. The results of that mouse study are shown in Table 12, hereinafter.
- Type-II CS-repeat For type-II, this work is complicated by the existence of four different forms of the type-II epitope. These forms contain either G or D at position 5, and either N or D at position 6 [Qari et al., Mol . Biochem. Parasi tol . , (1992) 55(1-2) :p. 105- 113] . Hence, there are 4 different possible repeat sequences (GN, GD, DN, and DD) needed to maximize the possibility of success.
- the first, and preferred approach is to prepare a single hybrid particle containing all four repeats, as shown below by underlines. This approach was successfully employed to address the variability in the type-I repeat. Each of these constructs contains flanking dipeptide cloning site remnants.
- ANGAGNQPGANGAGDQPGANGADNQPGANGADDQPG P. vivax-type II -GN/GD/DN/DD SEQ ID NO: 151.
- the second approach was to prepare two hybrid particles, whereby each particle contained two of the variant epitopes (see below) .
- This approach is less preferable because it requires either the use of a more complex expression system to direct the production of 'mixed' particles during expression, or the mixing of type-II particles following manufacture .
- ANGAGNQPGANGAGDQPG P. vivax- type II -GN/GD
- Type-III ( 'vivax-1ike ' ) CS-repeat
- the third P. vivax CS-epitope which is quite different from the other two, is not associated with amino acid variation (see below) [Qari et al . , Lancet, 1993. 341(8848): p. 780-783].
- This sequence was cloned into the HBc expression system, and hybrids were produced that contained flanking dipeptide cloning site remnants.
- APGANQEGGAAAPGANQEGGAA P. vivax-type III
- PCR is used to amplify N-terminal HBc fragments (residues 1-80, which contain the B cell epitopes) , and C-terminal HBc fragments (residues 81- 150, which contain the T cell epitopes) .
- the fragments are ligated together and amplified again by PCR.
- clones are verified by restriction endonuclease mapping and automated DNA sequence analysis (Lark Technologies, Houston TX) . Details are essentially the same as for P. falciparum. Particles that contain each of the Type-I, -II and -III B cell epitopes and variants as well as the Pv- UTC, have been expressed and recovered.
- mice were immunized with CS-2 or V12.Pfl using 20 ⁇ g of particles on day zero and were boosted with 10 ⁇ g at four weeks.
- Mice immunized with particles from V12. Pf3 and V12.Pf3.1 were immunized using 20 ⁇ g of particles on day zero and were boosted with 10 ⁇ g at eight weeks using adjuvants as discussed before.
- Data showing the duration of the titers achieved are shown in Fig. 5, with data for use of V12.Pf3 particles being essentially identical to data with V12.Pf3.1 particles, and not shown.
- V13 is an insertion between residues 129 and 130 and is used as a control because the native HBc immunodominant loop remains intact in this construct.
- V12. Pf3.1 in a manner suitable for human administration, it was necessary to express the particle using an expression system that did not require the use of ampicillin to ensure plasmid maintenance. To achieve this, the gene coding for the particle, along with the necessary upstream regulatory sequences, was inserted into a new plasmid that utilizes kanamycin as the selectable marker.
- the new plasmid (V17.Pf3.1) was synthesized using a two step cloning procedure:
- Step 1 The plasmid pKK223-3N-V12 was digested with the restriction enzymes BamHI and Hindlll to yield two DNA fragments of 801 and 4869 bp.
- the commercially available plasmid pREP4 (Qiagen) was cut with Bglll and Hindlll to yield two fragments of 320 bp and 3420 bp.
- the 3420 bp and 801 bp fragments were ligated to create plasmid V17. (It is noted that Bglll and BamHI digested DNAs can be ligated by virtue of their common 'overhang' sequences, although neither Bglll or BamHI can cut the resultant fragment) .
- the V17 plasmid therefore, contains the HBcl49 gene, complete with Pf-UTC sequence fused to the C- terminus, and EcoRI and Sad restriction sites in the immunodominant loop region to enable insertion of epitopes between D78 and P79 of the HBc gene.
- Step 2 The second step was to insert the Pf3.1 version of the Pf CS-repeat epitope into the immunodominant loop region of the gene. This was achieved by digesting V17 with Sad and EcoRI to yield 15 bp and 4206 bp DNA fragments. Annealed oligonucleotides encoding the Pf3.1 epitope were ligated with the 4206 bp fragment to yield V17.Pf3.1, a 4275 base pair plasmid.
- this plasmid contains a gene for the lac repressor (lac I) to force any gene under lac promoter control to be fully repressed until induced by isopropylthiogalactoside (IPTG) . It also has a kanamycin resistance gene to permit positive selection via the addition of kanamycin to culture media.
- lac I lac repressor
- IPTG isopropylthiogalactoside
- the plasmid has the replication origin of pACYC 184 and is not considered to be a high copy number plasmid.
- the locations of the genes of interest are:
- E. coli BLR a rec A derivative of E. coli BL21, and a common strain used for the production of recombinant proteins (available for purchase from Novagen) .
- E. coli BLR was selected as a host organism for expression because of its increased genetic stability, as well as its ability to produce assembled particles in soluble form (not in inclusion bodies) .
- E. coli (Strain BLR) containing the V17.Pf3.1 plasmid were streaked onto an LB agar plate supplemented with 25 ⁇ g/mL kanamycin and 10 ⁇ g/mL tetracycline, then incubated at 37°C for 16-20 hours. A single colony was then used to inoculate 3 mL of TB-Phy medium in a 'sterile culture tube, supplemented with 25 ⁇ g/mL kanamycin. The tube was incubated overnight (about 18 hours) on a shaker at 37°C and about 200 rpm.
- the fermentor (BiostatTM UE20) was inoculated with 100 mL of inoculum with the fermentor conditions set as follows:
- the Agoo value was measured for the first sample, and for samples every 20-30 minutes thereafter to monitor Agoo- An I p ⁇ G solution was prepared by dissolving 62 mg IPTG in 10-15 mL water. When the Agoo value reached 0.5, the filter- sterilized IPTG solution was aseptically added to the fermentor through a syringe. The incubation was continued until next day (e.g. about another 10-24 hours) .
- the fermentor temperature was set to 15°C.
- Harvesting of cells was started by centrifugation in a Beckman ® J2-MC centrifuge with following conditions :
- the cells were harvested by freezing into liquid nitrogen.
- the biomass of harvested cells was resuspended in 50 mM sodium phosphate, pH 6.8, and lysed using a French Pressure cell at 16,000 psi .
- the cell debris was removed by centrifugation using a Beckman ® J2-MC centrifuge and the following conditions .
- the volume of the resultant supernatant was measured and 277 g/L of solid ammonium sulfate were slowly added to the supernatant. The mixture was stirred at 4°C for 30 minutes. The solution was centrifuged in Beckman ® J2-MC centrifuge with the following conditions.
- the precipitate was then resuspended in a minimal volume of 50 mM sodium phosphate buffer and then dialyzed against the same buffer for one hour with stirring.
- the dialyzed solution was centrifuged in Beckman ® J2-MC centrifuge with the following conditions .
- the supernatant was recovered and then subjected to gel filtration chromatography.
- the column was eluted with buffer B at 2 mL per minute. Particle-containing fractions were identified using SDS-PAGE and pooled. The salt concentration of the pooled material was adjusted to 5M by adding sodium chloride .
- Buffer A 50 mM sodium phosphate buffer
- Buffer B (elution solvent) : 50 mM sodium phosphate buffer (pH 6.8). (The buffer was degassed for 30 minutes daily, before use.)
- the column was equilibrated with 5 column volumes (CV) of buffer A for a one hour time prior to starting purification, using a flow rate of 20 mL/minute .
- the retentate containing 5 M salt was then loaded at a rate of 20 mL/minute.
- the column was washed with 2 CV of buffer A, washed with 2 CV of 10% buffer B, eluted with 3 CV of 40% buffer B, and (finally eluted) with 100 % buffer B.
- Fractions were completely analyzed for proteins of interest by SDS PAGE analysis. Pure fractions were combined together, and a protein estimation using a Bradford assay was carried out .
- the column was equilibrated with 5 column volumes (CV) of 40% buffer B for one hour prior to starting purification, using a flow rate of 20 ml/min.
- the combined fractions from ether HIC were loaded at a rate of 20 mL/minute.
- the column was washed with 2 CV of 40% buffer B, washed with 2 CV 90% B, and eluted with 4 CV of WFI .
- Fractions were analyzed for protein of interest by SDS PAGE analysis. Pure fractions were combined together
- the column was equilibrated with 5 column volumes (CV) of 20 mM sodium phosphate buffer, flow rate: 5 mL/min. Load combined fractions eluted from butyl HIC at 5 mL/min. Wash the column with 20 mM sodium phosphate buffer until A280 drops to baseline. Fractions were analyzed for protein of interest by SDS PAGE analysis. Pure fractions were combined together.
- a PCR primer was synthesized (SEQ ID NO: 165) .
- This primer in conjunction with HBcl49/NcoI-F (SEQ ID No:29), was used to amplify the HBc gene to produce a version of HBc having a single cysteine codon introduced directly after V149, as well as EcoRI and Hindlll restriction sites (after the introduced cysteine) .
- the 478 bp PCR product was cut with Ncol and Hindlll and cloned into pKK223-3N.
- This plasmid was then used as the template in a PCR reaction, along with the primers HBc-P79/SacI-F (SEQ ID NO:35) and Pf/CS-UTC (C17A) (SEQ ID NO: 104) the resultant PCR product (307 bp) coded for amino acids 79 through 149 of HBc, followed by the introduced cysteine, followed by the Pf/CS-UTC having the C17A mutation [Pf/CS- UTC (C17A)] # and flanked by Sad (5') and Hindlll (3') restriction sites. This fragment was cut with Sad and Hindlll and ligated with the plasmid V2.Pfl (encoding the malarial (NANP) 4 epitope) that had been cut with the same two enzymes .
- the resultant gene codes for a 190 amino acid HBc chimera having (NANP) 4 inserted between amino acids 78 and 79 of HBc, (flanked by the Gly-Ile and Glu-Leu sequences derived from the EcoRI and Sacl restriction sites respectively) and the C17A version of the Pf/CS-UTC at the C terminus.
- the single cysteine was therefore located between V149 of HBc and the Gly-Ile linker sequence (derived from the EcoRI restriction site) located prior to the first amino acids of the Pf/CS-UTC (C17A) T cell epitope (see SEQ ID NO:167) .
- This hybrid particle was expressed, purified and analyzed for stability by incubating at 37°C for several weeks.
- the stability of this particle (V12.Pfl (C17A)C150) was compared to V12.Pfl, with the only difference between the two particles being the position of the cysteine residue.
- V12.Pfl the cysteine is followed by 3 amino acids (SVT) at the C- terminus of the protein (SEQ ID No: 166)
- SVT amino acids
- V12.Pfl (C17A)C150 the cysteine is followed by 22 additional amino acid residues (SEQ ID No: 167) .
- V12.Pfl (C17A) C150 The effect of inserting the cysteine residue between HBc and the T cell epitope (V12.Pfl (C17A) C150) was to create a particle that was significantly more stable than a similar particle without the C terminal cysteine (V12. Pf1 (C17A) ) .
- V12. Pf1 (C17A) C150 was not as stable V12.Pfl (Fig. 7).
- V7.HBC74-87 and V7.HBc74-87+C
- V7.HBC74-87 and V7.HBc74-87+C
- the V7 construct was PCR amplified with the HBc-P79/SacI-F primer (SEQ ID NO: 35) and pKK223-2/4515-32-R (SEQ ID NO:36) .
- the product was cut with Sad and Hindlll, and the Sacl/Hindlll fragment was ligated into V2. Pf1 cut with the same enzymes .
- Table 14 shows the amino acid sequences of C-terminal fusions HBc (74-87) and HBc (74-87) + C, relative to the native sequence that occurs in the wild type HBc protein, as well as the and the HBcl49 + C particle.
- Cys shift is the position of the introduced cysteine relative to its location in the wild type protein, where it is the last residue (position 183) .
- the SeppicTM ISA-720 formulation was prepared according to the manufacturers directions. Briefly, the ISA-720 and V12. Pf3.1 particles were mixed at 70:30 (w/w) ratio and vortexed, using a bench top vortexer, set at maximum power, for 1 minute.
- the AlhydrogelTM formulation was prepared using an 8 -fold excess of AlhydrogelTM (by weight) over V12.Pf3.1 particles, which was shown to be physically bound to the AlhydrogelTM prior to immunization.
- mice were immunized twice with V12.Pf3.1 particles in SeppicTM MontanideTM ISA-720. Spleen cells were removed and stimulated in the presence of various peptides. 10 s cells were incubated for 3 days in the presence of peptides: UTC (universal T epitope from P. falciparum; Seq IN NO: 120), p85-100 peptide corresponding to HBc 85-100, NANP (B-cell epitope from V12.Pf3.1; NANPNVDP (NANP) 3 f SEQ ID NO: 22) in the presence of Staphylococcal enterotoxin B (SEB) , or tissue culture medium .(unstim) . Interferon gamma production after 3 days was determined by ELISA. The results shown in Table 16, below, indicate that immunizing with V12. Pf3.1 induces T- cells that recognize the UTC component of the protein, and drives them to a Thl type response.
Abstract
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- 2001-08-16 AP APAP/P/2003/002751A patent/AP2003002751A0/en unknown
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- 2001-08-16 EP EP01964072A patent/EP1309602A4/en not_active Withdrawn
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US7351413B2 (en) | 2002-02-21 | 2008-04-01 | Lorantis, Limited | Stabilized HBc chimer particles as immunogens for chronic hepatitis |
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US7320795B2 (en) | 2003-07-30 | 2008-01-22 | Vaccine Research Institute Of San Diego | Rodent hepatitis B virus core proteins as vaccine platforms and methods of use thereof |
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Also Published As
Publication number | Publication date |
---|---|
EP1309602A2 (en) | 2003-05-14 |
WO2002013765A3 (en) | 2002-07-25 |
AU2001284967A1 (en) | 2002-02-25 |
OA12427A (en) | 2006-04-18 |
CA2419182A1 (en) | 2002-02-21 |
EP1309602A4 (en) | 2005-10-05 |
AP2003002751A0 (en) | 2003-06-30 |
US6942866B2 (en) | 2005-09-13 |
US20030054337A1 (en) | 2003-03-20 |
US20050208068A1 (en) | 2005-09-22 |
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